Harmankardon Avr 161
Harmankardon Avr 161
AVR 161/230
5.1 CHANNEL 85 Watt per channel A/V RECEIVER
CONTENTS
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Harman Kardon AVR 161 Service Manual
Front-Panel Controls
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English
Front-Panel Controls, continued Front-panel display: Various messages appear on this two-line display in response to
commands and changes in the incoming signal. In normal operation, the current source
Power indicator/Power button: The AVR has three different power modes: name appears on the upper line, while the active surround mode is displayed on the
lower line. When the on-screen display menu system (OSD) is in use, the current menu
• Off (Power indicator glows solid amber): The Off mode minimizes energy consumption settings appear.
when you’re not using the AVR. When the AVR is off, it will not automatically turn on
or play audio in response to an AirPlay stream from a networked device (AVR 1710/ Up/Down buttons/Tuning buttons: Use these buttons to navigate the AVR’s menus.
AVR 171 only). When the AVR is off, pressing the Power button turns it on. To turn When the radio is the active source, use these buttons to tune stations according to the
the AVR off when it is on, press the Power button for more than three seconds. The setting of the Tuning Mode button (see above).
Front-Panel Display will indicate “Your device is switched off” for two seconds, then Surround Mode Category button: Press this button to select a surround-sound
will switch off. category. Each press changes the surround-mode category: Auto Select, Virtual, Stereo,
NOTE: You can use the System Setup menu to set the AVR to automatically enter HARMAN NSP, Movie, Music and Video Game. To change the specific surround-sound
the off mode after it has been in the Sleep mode for a certain period of time. See mode within the category, use the Surround Mode Select buttons. See Audio Processing
System Settings, on page 34. and Surround Sound, on page 29, for more information about surround modes.
• Sleep (Power indicator glows solid amber and front-panel display indicates “Device Surround Mode Select buttons: After you have selected the desired surround-mode
sleep”): The Sleep mode powers-down some of the AVR’s circuitry, but allows the category, press these buttons to select a specific mode within the category, such as to
AVR to automatically turn on and play audio in response to an AirPlay or DLNA change from Dolby® Pro Logic® II Movie mode to DTS® NEO:6 Cinema mode. Surround
DMR stream from a networked device (AVR 1710/AVR 171 only). When the AVR is mode availability depends on the nature of the source input signal, i.e., digital versus
in Sleep, pressing the Power button turns it on. To put the AVR into Sleep when it is analog, and the number of channels encoded within the signal.
on, press the Power button for less than three seconds. The front-panel display will Source Select buttons: Press these buttons to select the active source.
indicate “Device sleep” while the AVR is in the Sleep mode.
Volume knob: Turn this knob to raise or lower the volume.
NOTE: The AVR will automatically enter the Sleep mode after 30 minutes of no audio
signal or user control input , unless USB, iPod, Home Network, vTuner, AirPlay, or
DLNA DMR is active. In these cases, the AVR will automatically enter the Sleep mode
after the number of hours set in the Auto Power Off system setting. See System
Settings, on page 34.
• On (Power indicator glows solid white): When the AVR is on it is fully operational.
Headphone jack/EzSet/EQ Mic input: Connect a 1/4” stereo headphone plug to this
jack for private listening. This jack is also used to connect the supplied microphone for
the EzSet/EQ setup procedure described in Configure the AVR For Your Speakers, on
page 22.
Tuning Mode button (AVR 1710/AVR 1610 only): Press this button to toggle the radio
between the manual (one frequency step at a time) and automatic (seeks frequencies
with acceptable signal strength) FM tuning mode. The button also toggles the radio
between stereo and mono modes when an FM station is tuned in.
RDS button (AVR 171/AVR 161 only): When listening to an FM radio station that
broadcasts RDS information, this button activates the various RDS functions.
USB port: The USB port can be used to play audio files from an Apple iOS® device
connected to the port, and can also be used to play MP3 and WMA audio files from a USB
device inserted into the port. Insert the connector or device into the USB port oriented so
it fits all the way into the port. You may insert or remove the connector or device at any
time – there is no installation or ejection procedure.
You can also use the USB port to perform firmware upgrades. If an upgrade for the AVR’s
operating system is released in the future, you will be able to download it to the AVR
using this port. Complete instructions will be provided at that time.
IMPORTANT: Do not connect a PC or other USB host/controller to this port, or you
may damage both the AVR and the other device.
Channel Volume Adjust button: Press this button to activate the individual channel
level adjustment. After pressing this button, use the Up/Down buttons/Tuning buttons to
select the channel for adjustment and use theLeft/Right buttons to adjust the channel’s
level.
Audio Input button: Press this button to change the audio input connection for the current
source. Use the Left/Right buttons to cycle through the available input connections, and
press the Set button to assign the currently-displayed connection to the source.
IR sensor: This sensor receives infrared (IR) commands from the remote control. Make
sure that the sensor is not blocked.
Set button: Press this button to select the currently highlighted menu item.
Left/Right buttons: Use these buttons to navigate the AVR’s menus.
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Rear-Panel Connectors
Digital Audio
Connectors Fan Vents
Radio Antenna Network HDMI Output HDMI/MHL Input HDMI Input Power Cord
Connectors Connector Connectors Connector Connectors (AVR 1710)
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English
Rear-Panel Connectors, continued HDMI® Input connectors: An HDMI connection transmits digital audio and video signals
between devices. If your source devices have HDMI connectors, using them will provide
Digital Audio connectors: If your non-HDMI source devices have digital outputs, the best possible video and audio performance quality. Since the HDMI cable carries
connect them to the AVR’s digital audio connectors. NOTE: Make only one type of digital both digital video and digital audio signals, you do not have to make any additional audio
connection (HDMI, optical or coaxial) from each device. See Connect Your Audio and Video connections for devices you connect via the HDMI connection. See Connect Your Audio
Source Devices, on page 16, for more information. and Video Source Devices, on page 16, for more information.
Radio Antenna connectors: Connect the supplied AM and FM antennas to their IR and Trigger connector: The following IR and trigger connectors are provided:
respective terminals for radio reception. • IR In connectors: When the IR sensor on the front panel is blocked (such as when
Analog Audio connectors: The following analog audio connectors are provided: the AVR is installed inside a cabinet), connect an optional IR receiver to the IR In
jack.
• Analog Audio Input connectors: Use the AVR’s Analog Audio Input connectors for
source devices that don’t have HDMI or digital audio connectors. See Connect Your • 12V Trigger connector: This connector provides 12V DC whenever the AVR is on. It
Audio and Video Source Devices, on page 16, for more information. can be used to turn on and off other devices such as a powered subwoofer.
• Zone 2 Out connectors (AVR 1710/AVR 171 only): Connect these jacks to an • Zone 2 IR Input connector (AVR 1710/AVR 171 only): Connect a remote IR
external amplifier to power the speakers in the remote zone of a multizone system. receiver located in Zone 2 of a multizone system to this jack to control the AVR from
the remote zone.
Network connector: If your home network is wired, use a Cat. 5 or Cat. 5E Ethernet
cable (not supplied) to connect the AVR’s Network connector to your home network to Fan Vents (AVR 1710/AVR 171 only): These vents are used by the AVR’s fan to cool the
enjoy Internet radio and content from DLNA-compatible devices that are connected to the system. Maintain a clearance of at least three inches (75mm) from the nearest surface to
network. See Connect to Your Home Network, on page 18, for more information. avoid overheating the unit. It is normal for the fan to remain off at most normal volume
levels. An automatic temperature sensor turns the fan on only when it is needed.
Subwoofer Pre-Out connector: Connect this jack to a powered subwoofer with a line-
level input. See Connect Your Subwoofer, on page 15, for more information. NOTE: The
AVR 1710 and AVR 171 have two subwoofer connectors. IMPORTANT NOTE: Never block the fan vents. Doing so could allow the AVR to
overheat to dangerous levels.
HDMI Output connectors: If your TV has an HDMI connector and you are connecting
HDMI source devices to the AVR, use an HDMI cable (not included) to connect it to
the AVR’s HDMI Out connector. NOTE: The AVR 1710 and AVR 171 have two HDMI Out AC Input connector (AVR 171/AVR 161 only): After you have made and verified all
connectors. other connections, plug the supplied AC power cord into this receptacle and into an
unswitched wall outlet.
Power cord (AVR 1710/AVR 1610 only): After you have made and verified all other
Notes on using the HDMI Output connector: connections, plug the power cord into an unswitched wall outlet.
• When connecting a DVI-equipped display to the HDMI Out connector, use an
HDMI-to-DVI adapter and make a separate audio connection.
• Make sure the HDMI-equipped display is HDCP (High-bandwidth Digital Content
Protection)-compliant. If it isn’t, do not connect it via an HDMI connection; use an
analog video connection instead and make a separate audio connection.
• AVR 1710/AVR 171 only: If you have connected a 3D-capable TV to HDMI Out 1
and a 2D-capable TV to HDMI Out 2, the AVR will not allow 3D playback when
both TVs are powered on. To watch 3D content, turn off the AVR and both TVs,
then first turn on the 3D TV, then turn on the AVR, and finally turn on the 3D
source device. Do NOT turn the 2D TV back on.
HDMI/MHL Input connector: If you have a Roku Streaming Stick or other MHL-capable
device, connect it only to this HDMI/MHL In connector. If you do not have an MHL device
you can use this connector for an HDMI-capable device.
Speaker connectors: Use two-conductor speaker wire to connect each set of terminals
to the correct speaker. See Connect Your Speakers, on page 14, for more information.
NOTE: The Assigned Amp speaker connectors (AVR 1710/AVR 171 only) are used
for the surround back or Front Height channels in a 7.1- channel home theater, or
you can reassign them to a remote room for multizone operation or to front height
channels for Dolby® Pro Logic IIz operation. See Place Your Speakers, on page 11,
for more information.
Analog Video connectors: The following Analog Video connectors are provided:
• Composite Video Input connectors: Use composite video connectors for video
source devices that don’t have HDMI connectors. You will also need to make an
audio connection from the source device to the AVR. See Connect Your Audio and
Video Source Devices, on page 16, for more information.
• Composite Video Monitor Out connector: If your TV or video display does not
have an HDMI connector, or if your TV does have an HDMI connector but you are
connecting some source devices with only composite video connectors, use a
composite video cable (not included) to connect the AVR’s Composite Video Monitor
Out connector to your TV ’s composite video input.
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IR Transmitter
Zone 2 Button
Power Off Button
(AVR 1710/AVR 171 only)
AVR Button
Up/Down/Left/Right
Buttons
Number Buttons
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English
System Remote Control Functions, continued Clear button: Press this button to clear a radio station frequency you have started to
enter.
In addition to controlling the AVR, the AVR remote is capable of controlling eight other Test Tone button: Press this button to activate test noise that will circulate through each
devices, including an iPod/iPhone device connected to the AVR’s front-panel USB port. speaker, allowing you to adjust the individual speaker levels. Use the Up/Down buttons
During the installation process, you may program the codes for each of your source to switch the noise to a different speaker and use the Left/Right buttons to change the
components into the remote. (See Program the Remote to Control Your Source Devices volume of the speaker the noise is playing through.
and TV, on page 21, for programming information.) To operate a component, press its
Source Selector button to change the remote’s control mode. Delay Adjust button: Pressing this button lets you adjust two different types of delay
settings (use the Up/Down buttons to cycle through the settings):
A button’s function depends on which component is being controlled. See Table A13 in
the Appendix for listings of the functions for each type of component. Most of the buttons • Lip Sync: This setting lets you resynchronize the audio and video signals from a
on the remote have dedicated functions, although the precise codes transmitted vary source to eliminate a “lip sync” problem. Lip-sync issues can occur when the video
depending on the specific device being controlled. Due to the wide variety of functions for portion of a signal undergoes additional processing in either the source device or the
various source devices, we have included only a few of the most-often used functions on video display. Use the Left/Right buttons to delay the audio by up to 180ms.
the remote: number buttons, transport controls, television-channel control, menu access • Distance: These settings let you set the delay for each speaker to compensate for the
and power on and off. Buttons dedicated to the AVR – AVR Power On/Off, Surround different distances they may be from the listening position. Use the Up/Down buttons
Modes, Volume, Mute, Delay and Sleep Settings – are available at any time, even when to cycle through each of the system’s speakers, and use the Left/Right buttons to set
the remote is controlling another device. the distance each speaker is from the listening position. See Manual Speaker Setup,
Power On/Power Off buttons: Press these buttons to turn the AVR on and put it into on page 30, for more information.
Sleep or turn it off. See Power Indicator/Power Button, on page 4, for more information. Sleep button: Press this button to activate the sleep timer, which turns off the receiver
IR Transmitter: As buttons are pressed on the remote, infrared codes are emitted after a programmed period of time. Each press increases the time by 10 minutes, up to
through this lens. 90 minutes – ending with the “Sleep Off” message.
Zone 2 button (AVR 1710/AVR 171 only): Use this button to select whether the AVR Volume Up/Down buttons: Press these buttons to raise or lower the volume.
commands will affect the main listening area (Zone 1) or the remote zone of a multizone Channel/Tuner buttons: When radio has been selected, press these buttons to select a
system (Zone 2). When the remote is in the Zone 2 control mode, the Zone 2 button will preset radio station. While operating a cable, satellite or HDTV set-top box or a television,
illuminate whenever you press a button. press these buttons to change channels.
Mute button: Press this button to mute the AVR’s speaker-output connectors and Info/Option button: Press to display the available option settings for the current
headphone jack. To restore the sound, press this button or adjust the volume. source.
Source Selector buttons: Press one of these buttons to select a source device, e.g., Display Dimmer button: Press this button to dim the AVR’s front-panel Message Display
Disc, Cable/Sat, Radio, etc. This action will also turn on the AVR and switch the remote’s partially or fully.
control mode to operate the selected source device.
Preset Scan button: When Radio is the selected source, press this button to play each of
• The first press of the Radio button switches the AVR to the last-used tuner band (AM your preset radio stations in order for five seconds. Pressing the button again to remain
or FM). Each successive press changes the band. tuned to the current station.
• The first press of the USB button switches the AVR to the last-used source (USB or RDS button (AVR 171/AVR 161 only): When listening to an FM radio station that
iPod). Each successive press cycles between the two sources. broadcasts RDS information, this button activates the various RDS functions.
• The first press of the Network button switches the AVR to the last-used source Direct button: Press this button to directly tune to a radio station by using the Number
(Network or vTuner). Each successive press cycles between the two sources. buttons to enter its frequency.
AVR button: Press to put the remote into the AVR control mode. Memory button: Press this button to save the current radio or vTuner station as a
Surround Modes button: Press this button to access the Surround Modes submenu. preset.
Select a surround-mode category: Auto Select, Virtual Surround, Stereo, HARMAN NSP, Transport Control buttons: These buttons are used to control source devices.
Movie, Music or Game. When you select the category, it is highlighted and the surround
mode changes. Previous Channel button: When TV is the selected source, press this button to switch
to the previously-tuned channel.
To change the surround mode for the selected category navigate to the Surround Mode
menu in the AVR’s on-screen display menu, select the desired category, and use the Left/
Right buttons to select one of the available surround modes. See the Advanced Functions
section, on page 29, for more information.
OSD/Menu button: When the remote is controlling the AVR, press this button to display
the AVR’s on-screen display (OSD) menu. This button is also used within the tuner menus
and an iPod connected to the AVR’s front-panel USB port, and is also used to display the
main menu on some source devices.
Up/Down/Left/Right buttons: These buttons are used to navigate the menu system and
to operate the tuner.
OK button: This button is used to select items from the menu system.
Back/Exit button: Press this button to return to the previous menu or to exit the menu
system.
Home button: Press this button to display the Home menu for a Roku Streaming Stick™
that is connected to the AVR’s MHL/HDMI connector.
Number buttons: Use these buttons to enter numbers for radio-station frequencies or
to select station presets.
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Processor Reset
If the AVR behaves erratically after a power surge, unplug the AC power cord for at least
Panel Timeout: This setting allows you to set the AVR’s front-panel display to automatically 3 minutes. Plug the cord back in and turn the AVR on. If this procedure doesn’t help, reset
turn off after remaining on for a predetermined time (3 – 10 seconds) each time you use the AVR’s processor as described below.
a control. Set this to “Off” to have the display remain on continually. NOTE: A processor reset erases all user configurations, including speaker and level
Auto Power Off: This setting allows you to set the AVR to automatically switch to the settings and tuner presets. After a reset, reenter all of these settings from your entries in
Off mode after being in the Sleep mode for a predetermined time (1 – 8 hours). See the Appendix worksheets.
Power Indicator/Power Button, on page 4, for more information. It also allows the AVR to
automatically switch to the Sleep mode after being on for the predetermined amount of To reset the AVR’s processor:
time. Note that it will not transition to Sleep mode this way if the active source has one 1. Press the front-panel Power Button for more than three seconds to turn the AVR off (the
of the Digital Audio Connectors selected as the Audio Input. See Source Setup, on page Power Indicator will turn amber).
23, for more information.
2. Press and hold the front-panel Surround Mode Category button for at least 5 seconds
Menu Timeout: This setting allows you to set the amount of time (20 – 50 seconds) a until the RESET message appears on the front-panel display.
menu screen will remain on after the last adjustment. Set this to “Off” to have the menus
remain on continually until you press the OSD/Menu button. NOTE: After performing a processor reset, wait at least 1 minute before pressing any
Source Selector buttons.
Status Message: When the AVR is turned on, the volume is adjusted, the source is
changed or a change in the input signal is detected, a status message will be displayed If the AVR does not function correctly after a processor reset, contact an authorized
on the TV screen. Select how long the message remains visible, from 2 to 10 seconds, Harman Kardon service center for assistance. Authorized service centers may be located
with a default of 3 seconds. Select “Off” if you do not wish to see the status messages on by visiting our Web site at www.harmankardon.com.
the TV screen (they will still appear on the AVR’s front-panel display).
Volume Default and Default Volume Setting: These two settings are used together to
program the volume level when you turn on the AVR. Set Volume Default to On, and then
set the Default Volume Setting to the desired turn-on volume. When Volume Default is
set to Off, the AVR will turn on at the last-used volume setting from the previous listening
session.
HDMI Audio to TV: This setting determines whether HDMI audio signals are passed
through the HDMI Monitor Out connector to the video display. In normal operation, leave
this setting at Off, as audio will be played through the AVR. To use the TV by itself, without
the home theater system, turn this setting to On.
HDMI Link: This setting allows the communication of control information among the
HDMI devices in your system. Turn this setting to On to allow control communication
between the HDMI devices; turn the setting to Off to forbid control communication.
Software Update: If a software upgrade is released for your AVR, installation instructions
will be available in the Product Support section of the Web site or from Harman Kardon
customer service. At that time, you may use this submenu to install the upgrade
software.
IMPORTANT: During a software upgrade, do not power off the AVR or use any of its
controls. Doing so could permanently damage the AVR.
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Troubleshooting
AVR Troubleshooting
English
Symptom Cause Solution
Unit does not function • No AC power • Ensure that the power cord is plugged into a live AC
power outlet
• Check if the AC outlet is switch-controlled
Front-panel display lights, but there’s no sound or picture • Intermittent input connection • Secure all input and speaker connections
• Mute is on • Press Mute button
• Volume control is turned down • Turn up Volume control
No sound from any speaker • Amplifier is in protection mode due to possible short • Check all speaker wires at speaker and AVR
circuit connections for crossed wires
• Amplifier is in protection mode due to internal • Contact your local Harman Kardon service center
problems
No sound from center or surround speakers • Incorrect surround mode • Select a surround mode other than stereo
• Program material is monophonic • Mono programs contain no surround information
• Incorrect speaker configuration • Check the speaker configuration in the setup menu
• Program material is stereo • The surround decoder may not create center- or
surround-channel information from nonencoded
programs
Unit does not respond to remote control commands • Weak batteries in remote • Change batteries in remote
• Remote sensor is obscured • Ensure that the AVR’s front-panel remote sensor is in
the line of sight of the remote
Intermittent buzzing in tuner • Local interference • Move the AVR or antenna away from computers,
fluorescent lights, motors or other electrical appliances
(AVR 1710/AVR 171 only): Surround-back speaker • Multi-zone operation has been selected/Assigned AMP • Use the Speaker Setup menu to reassign the Assigned
settings cannot be accessed, and the test tone does not channels have been assigned to Zone 2 AMP to the surround back left and right channels
play through the surround back speakers
Unable to activate remote control Programming mode • Source Selector button is not held for at least 3 • Be sure to hold the Source Selector button for at least
seconds 3 seconds
Remote buttons light, but AVR does not respond • Remote is in Zone 2 mode • Press Zone 2 button (button will not illuminate when
remote is in Zone 1 control mode).
Unable to establish network connection • AVR network programming requires rebooting • Cycle the AVR into the Off mode, and then turn it on
again
Additional information on troubleshooting possible problems with your AVR and installation-related issues may be found in the list of “Frequently Asked Questions,” which is located
in the Product Support section of our Web site: www.harmankardon.com
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AVR Specifications
Specifications
AM Tuner Section
Audio Section Frequency range: 520 – 1710kHz (AVR 1710/AVR 1610)
522 – 1620kHz (AVR 170/AVR 160)
Stereo power: AVR 1710/AVR 171: 100W per channel, Signal-to-noise ratio: 38dB
two channels driven @ 6/8 ohms, 1kHz,
<0.9% THD Usable sensitivity (loop): 500µV
AVR 1610/AVR 161: 85W per channel, two Distortion (1kHz, 50% mod): 1.0%
channels driven @ 6/8 ohms, 1kHz, <0.9%
THD Selectivity (±10kHz): 30dB
Surround system adjacent channel Dolby Pro Logic/DPLII: 40dB Video Section
separation: Dolby Digital: 55dB
DTS: 55dB Television format: NTSC (AVR 1710/AVR 1610);
PAL (AVR 171/AVR 161)
Frequency response (@ 1W): 10Hz – 130kHz (+0dB/–3dB) Input level/impedance: 1Vp-p/75 ohms
Output level/impedance: 1Vp-p/75 ohms
High instantaneous current ±40 amps (AVR 1710/AVR 171);
capability (HCC): ±29 amps (AVR 1610/AVR 161) Video frequency response (composite
10Hz – 8MHz (–3dB)
video):
Transient intermodulation HDMI: HDMI 1.4 with 4k x 2k bypass
Unmeasurable
distortion (TIM):
36
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AVR161/230
1. Instruction manual ass'y - Accessories(CQXAVR161/230) 2. Package Drawing
1 2 3 4
1 MANUAL ASS'Y
POLY BAG AM LOOP ANTENNA ASS'Y BATTERY ASS'Y FM 1 POLE ANT(UL)
5 6 7 8
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Measurement condition
.No input signal or volume position is minium.
.Do not adjust at FM/AM
Standard value
.Ideal current = 48mA (±7%)
.Ideal DC Voltage = 22.5mA (±7%)
DC VOLTMETER ; Connect to
CN66(SL),CN61(CNT),CN64(SR),CN62(FR),CN63(FL)
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SEMICONDUCTOR KTC3423
TECHNICAL DATA TRIPLE DIFFUSED NPN TRANSISTOR
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KTC3423
I C - VCE h FE - I C
50 500
0 COMMON EMITTER
COLLECTOR CURRENT I C (mA)
00
30 COMMON EMITTER
0
0
40
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DC CURRENT GAIN h FE
40 VCE =10V
200 V
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20 100 50
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h FE - I C VCE(sat) - I C
COLLECTOR-EMITTER SATURATION
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COMMON COMMON
EMITTER EMITTER
500
DC CURRENT GAIN h FE
20 0.05
0.5 1 3 5 10 30 50 100 0.5 1 3 5 10 30 50 100
VCE(sat) - IC I C - VBE
COLLECTOR-EMITTER SATURATION
2 50
COMMON EMITTER
COLLECTOR CURRENT IC (mA)
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IC /I B =10
1 EMITTER
VOLTAGE VCE(sat) (V)
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KTC3423
C ib , Cob - V R fT - IC
COLLECTOR OUTPUT CAPACITANCE Cob (pF)
EMITTER INPUT CAPACITANCE C ib (pF)
100 500
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10 50
Cob
(I E =
0) 30
5 VCE =10V
3
VCE =2V
10
1 5
1 3 5 10 30 50 100 200 0.5 1 3 5 10 30 50 100
1.2 *100
COLLECTOR POWER DISSIPATION
I C MAX. (PULSED) m
100 S
*300
1.0 m
I C MAX. (CONTINUOUS) S
50 *1sec
0.8
DC
30
PC (W)
OP
VCEO MAX.
0.6 ER
AT
IO
N
0.4
10
CURVES MUST BE DERATED
0.2 LINEARLY WITH INCREASE
5
IN TEMPERATURE
0 3
0 20 40 60 80 100 120 140 160 3 5 10 30 50 100 300
Page 56 of 178
Harman Kardon AVR 161 Service Manual
SEMICONDUCTOR KTC812T
TECHNICAL DATA EPITAXIAL PLANAR NPN TRANSISTOR
FEATURES E
G
Low on Resistance : RON=1 (Typ.), (IB=5mA) 2 5 D _ 0.1
0.4 +
F
A
E 2.8+0.2/-0.3
_ 0.2
G
3 4 F 1.9 +
G 0.95
D
H _ 0.05
0.16 +
MAXIMUM RATING (Ta=25 ) I 0.00-0.10
J 0.25+0.25/-0.15
CHARACTERISTIC SYMBOL RATING UNIT K 0.60
L
L 0.55
Collector-Base Voltage VCBO 50 V I H
J J
Collector-Emitter Voltage VCEO 20 V
1. Q 1 EMITTER
Emitter-Base Voltage VEBO 25 V 2. Q 1 BASE
3. Q 2 COLLECTOR
Collector Current IC 300 mA 4. Q 2 EMITTER
5. Q 2 BASE
Base Current IB 60 mA 6. Q 1 COLLECTOR
Q1 Q2 Type Name
M
1 2 3
1 2 3
10V
Storage Time tstg - 500 - nS
Time
3kΩ
50Ω
1µs
Fall Time tf VCC =12V - 130 -
DUTY CYCLE <
= 2% VBB =-3V
Page 57 of 178
Harman Kardon AVR 161 Service Manual
SEMICONDUCTOR KTA1360
TECHNICAL DATA TRIPLE DIFFUSED PNP TRANSISTOR
Page 58 of 178
Harman Kardon AVR 161 Service Manual
KTA1360
I C - VCE h FE - I C
-50 500
COMMON COMMON EMITTER
COLLECTOR CURRENT I C (mA)
EMITTER
300
A Ta=25 C
DC CURRENT GAIN h FE
0µ
A
-40 A
m
m
0
-2
-1
-5 Ta=25 C
-300µA VCE =-10V
-30 100
VCE
-200µA
50
=-5V
-20
V CE
I B=-100µA 30
=-2V
-10
0 10
0 -2 -4 -6 -8 -10 -12 -0.5 -1 -3 -10 -30 -100
h FE - I C VCE(sat) - I C
COLLECTOR-EMITTER SATURATION
500 -5
COMMON EMITTER COMMON EMITTER
300 -3 Ta=25 C
VCE =-5V
VOLTAGE VCE(sat) (V)
DC CURRENT GAIN h FE
Ta=100 C
Ta=25 C -1
20
100 Ta=-25 C
B=
10
-0.5
B=
/I
5
IC
B=
/I
-0.3
IC
/I
50
30 IC
-0.1
-0.05
10 -0.03
-0.5 -1 -3 -10 -30 -100 -0.6 -1 -3 -10 -30 -100 -300
VCE(sat) - I C IC - VBE
COLLECTOR-EMITTER SATURATION
-5 -50
COMMON EMITTER COMMON EMITTER
-3 I C /I B =10 VCE =-5V
COLLECTOR CURRENT I C (mA)
-40
VOLTAGE VCE(sat) (V)
-1
-30
-0.5
-0.3
C
-20
C
5 C
00
C
Ta=-25
Ta=100
Ta=2
Ta=1
-0.1 -10
Ta=25 C
-0.05 Ta=-25 C
-0.03 0
-0.6 -1 -3 -10 -30 -100 -300 0 -0.2 -0.4 -0.6 -0.8 -1.0 -1.2
Page 59 of 178
Harman Kardon AVR 161 Service Manual
KTA1360
I C MAX(PULSE) 1.4
-100 10
0m
I C MAX(CONTINUOUS) 50 s 1.2
-50 0m
DC s
-30 1.0
OP
ER
AT 0.8
IO
-10 N
0.6
SINGLE NONREPETITIVE
-5 PULSE Ta=25 C 0.4
-3 CURVES MUST BE DERATED
LINEARLY WITH INCREASE 0.2
IN TEMPERATURE
-1 0
-1 -3 -10 -30 -100 -300 0 20 40 60 80 100 120 140 160
Page 60 of 178
Harman Kardon AVR 161 Service Manual
Page 61 of 178
Harman Kardon AVR 161 Service Manual
Page 62 of 178
Harman Kardon AVR 161 Service Manual
Page 63 of 178
Harman Kardon AVR 161 Service Manual
KSC1845
KSC1845
1 TO-92
1. Emitter 2. Collector 3. Base
hFE Classification
Classification P F E U
hFE2 200 ~ 400 300 ~ 600 400 ~ 800 600 ~ 1200
Page 64 of 178
Harman Kardon AVR 161 Service Manual
KSC1845
Typical Characteristics
10 1.0
IB=16µA IB=1.4µA
IB=1.2µA
IB=14µA
IB=1.0µA
8 0.8
IC[mA], COLLECTOR CURRENT
IB=8µA
4 0.4 IB=0.4µA
IB=6µA
IB=4µA
IB=0.2µA
2 0.2
IB=2µA
0 0.0
0 1 2 3 4 5 0 20 40 60 80 100
700
600
500 1 VBE(sat)
400
300
0.1 VCE(sat)
200
100
0 0.01
0.01 0.1 1 10 100 0.1 1 10 100
10 10k
f=1MHz VCE=6V
CURRENT GAIN-BANDWIDTH PRODUCT
IE=0
Cob[pF], CAPACITANCE
1k
1
fT[MHz],
100
0.1 10
1 10 100 0.1 1 10 100
Page 65 of 178
Harman Kardon AVR 161 Service Manual
KSC1845
Typical Characteristics (Continued)
100 800
VCE = 6V 700
Pulse Test
IC[mA], COLLECTOR CURRENT
500
1 400
300
0.1 200
100
0.01 0
0.4 0.5 0.6 0.7 0.8 0.9 0 25 50 75 100 125 150 175
o
VBE[V], BASE-EMITTER VOLTAGE Ta[ C], CASE TEMPERATURE
Page 66 of 178
Harman Kardon AVR 161 Service Manual
APPROVED
July-14-2008
Page 67 of 178
Harman Kardon AVR 161 Service Manual
KSA992
KSA992
1 TO-92
1. Emitter 2. Collector 3. Base
hFE2 Classification
Classification P F E
hFE2 200 ~ 400 300 ~ 600 400 ~ 800
Page 68 of 178
Harman Kardon AVR 161 Service Manual
KSA992
Typical Characteristics
-1.0 -10
IB = -1.2µA
IB = -1.2µA IB = -24µA
IB = -20µA
IC[mA], COLLECTOR CURRENT
-0.6 -6
IB = -12µA
IB = -0.6µA
-0.4 -4 IB = -8µA
IB = -0.4µA
IB = -4µA
-0.2 -2
IB = -0.2µA
IB = 0 IB = 0
0.0 0
0 -20 -40 -60 -80 -100 0 -1 -2 -3 -4 -5
VCE= -6V IC = 10 - IB
800
hFE, DC CURRENT GAIN
-1 VBE(sat)
600
400
-0.1 VCE(sat)
200
0 -0.01
-0.01 -0.1 -1 -10 -100 -0.1 -1 -10 -100
10 1000
100
10
0.1 1
-1 -10 -100 -1000 0.1 1 10 100
Page 69 of 178
Harman Kardon AVR 161 Service Manual
KSA992
Typical Characteristics (Continued)
800
700
PC[mW], POWER DISSIPATION
600
500
400
300
200
100
0
0 25 50 75 100 125 150 175
o
Ta[ C], AMBIENT TEMPERATURE
Page 70 of 178
Harman Kardon AVR 161 Service Manual
APPROVED
July-14-2008
Page 71 of 178
Harman Kardon AVR 161 Service Manual
㪝㪜㪘㪫㪬㪩㪜㩷 㪦㪬㪫㪣㪠㪥㪜㩷㪛㪩㪘㪮㪠㪥㪞㩷㩿㪬㫅㫀㫋䋺㫄㫄㪀㩷
䊶㪪㫄㪸㫃㫃㩷㫇㪸㪺㫂㪸㪾㪼㩷㪽㫆㫉㩷㪼㪸㫊㫐㩷㫄㫆㫌㫅㫋㫀㫅㪾㪅㩷 㪠㪥㪚㪉㪇㪇㪈㪘㪬㪈㩷
䊶㪟㫀㪾㪿㩷㫉㪼㫍㪼㫉㫊㪼㩷㪿㪝㪜㩷
㪈㪅㪌
䊶㪪㫄㪸㫃㫃㩷㪺㫆㫃㫃㪼㪺㫋㫆㫉㩷㫋㫆㩷㪼㫄㫀㫋㫋㪼㫉㩷㫊㪸㫋㫌㫉㪸㫋㫀㫆㫅㩷㫍㫆㫃㫋㪸㪾㪼㪅㩷
㪇㪅㪊㪌 㪇㪅㪏 㪇㪅㪊㪌
㪭㪚㪜㩿㫊㪸㫋㪀㪔㪋㪇㫄㪭㩿㪫㪰㪧㪅㪀䋨㪗㪠㪚㪔㪌㪇㫄㪘㪆㪠㪙㪔㪉㪅㪌㫄㪘䋩㩷
䊶㪣㫆㫎㩷㪦㫅㪄㪩㪼㫊㫀㫊㫋㪸㫅㪺㪼㩷
㩷 㪩㪦㪥㪔㪇㪅㪍㪌㱅㩿㪫㪰㪧㪅㪀䋨㪗㪠㪙㪔㪌㫄㪘䋩㩷 Ԙ
㪇㪅㪊㪉
㪡㪜㪠㪫㪘䋺㪪㪚㪄㪎㪌㪘㩷 㩷
㪇㪅㪌
㪇㪅㪉㪉
㩷
㪡㪜㪛㪜㪚䋺䋭㩷
㪈㪅㪎
㪈㪅㪇
㪘㪧㪧㪣㪠㪚㪘㪫㪠㪦㪥㩷 㪫㪜㪩㪤㪠㪥㪘㪣㩷㪚㪦㪥㪥㪜㪚㪫㪦㪩㩷
㪇㪅㪌
ԙ Ԛ
㫄㫌㫋㫀㫅㪾㩷㪺㫀㫉㪺㫌㫀㫋㩷㪃㩷㫊㫎㫀㫋㪺㪿㫀㫅㪾㩷㪺㫀㫉㪺㫌㫀㫋㩷 㽲䋺㪙㪘㪪㪜㩷
㩷 㽳䋺㪜㪤㪠㪫㪫㪜㪩㩷
㽴䋺㪚㪦㪣㪣㪜㪚㪫㪦㪩㩷
㪤㪘㪩㪢㪠㪥㪞㩷 㩷
㪇㪅㪌㪌
㪇㪅㪎
㪇㪅㪈㪉
㪇㨪㪇㪅㪈
䌒䌗䊶 㩷
㪠㪥㪚㪉㪇㪇㪈㪘㪤㪈㩷
㩷
㩷 㪉㪅㪈
㪇㪅㪋㪉㪌 㪈㪅㪉㪌 㪇㪅㪋㪉㪌
㪇㪅㪊㪇
㪇㪅㪍㪌 㪇㪅㪍㪌
Ԙ 㪡㪜㪠㪫㪘䋺㪪㪚㪄㪎㪇㩷
㪉㪅㪇
㪈㪅㪊㪇
㪡㪜㪛㪜㪚䋺䋭㩷
ԙ Ԛ 㪫㪜㪩㪤㪠㪥㪘㪣㩷㪚㪦㪥㪥㪜㪚㪫㪦㪩㩷
㽲䋺㪙㪘㪪㪜㩷
㽳䋺㪜㪤㪠㪫㪫㪜㪩㩷
㽴䋺㪚㪦㪣㪣㪜㪚㪫㪦㪩㩷
㪇㪅㪐
㪇㪅㪎
㪇㪅㪈㪌
㪇㨪㪇㪅㪈
㩷 㩷
㩷 㪠㪥㪚㪉㪇㪇㪈㪘㪚㪈㩷
㪉㪅㪌
㪇㪅㪌 㪈㪅㪌 㪇㪅㪌
㪇㪅㪋
㪇㪅㪐㪌 㪇㪅㪐㪌
Ԙ 㪡㪜㪠㪫㪘䋺㪪㪚㪄㪌㪐㩷
㪈㪅㪐㪇
㪡㪜㪛㪜㪚䋺㪪㫀㫄㫀㫃㪸㫉㩷㫋㫆㩷㪫㪦㪄㪉㪊㪍㩷
㪉㪅㪐
ԙ Ԛ 㪫㪜㪩㪤㪠㪥㪘㪣㩷㪚㪦㪥㪥㪜㪚㪫㪦㪩㩷
㽲䋺㪙㪘㪪㪜㩷
㽳䋺㪜㪤㪠㪫㪫㪜㪩㩷
㽴䋺㪚㪦㪣㪣㪜㪚㪫㪦㪩㩷
㪈㪅㪈
㪇㪅㪈㪍
㪇㪅㪏
㪇㨪㪇㪅㪈
㩷
㩷
㩷
㪤㪘㪯㪠㪤㪬㪤㩷㪩㪘㪫㪠㪥㪞㩷㩿㪫㪸㪔㪉㪌㷄㪀㩷
㪩㪘㪫㪠㪥㪞㩷
㪪㪰㪤㪙㪦㪣㩷 㪧㪘㪩㪘㪤㪜㪫㪜㪩㩷 㪬㪥㪠㪫㩷
㪠㪥㪚㪉㪇㪇㪈㪘㪬㪈㩷 㪠㪥㪚㪉㪇㪇㪈㪘㪤㪈㩷 㪠㪥㪚㪉㪇㪇㪈㪘㪚㪈㩷
㪭㪚㪙㪦㩷 㪚㫆㫃㫃㪼㪺㫋㫆㫉㩷㫋㫆㩷㪙㪸㫊㪼㩷㫍㫆㫃㫋㪸㪾㪼㩷 㪋㪇㩷 㪭㩷
㪭㪜㪙㪦㩷 㪜㫄㫀㫋㫋㪼㫉㩷㫋㫆㩷㪙㪸㫊㪼㩷㫍㫆㫃㫋㪸㪾㪼㩷 㪋㪇㩷 㪭㩷
㪭㪚㪜㪦㩷 㪚㫆㫃㫃㪼㪺㫋㫆㫉㩷㫋㫆㩷㪜㫄㫀㫋㫋㪼㫉㩷㫍㫆㫃㫋㪸㪾㪼㩷 㪉㪇㩷 㪭㩷
㪠㪚㩷 㪚㫆㫃㫃㪼㪺㫋㫆㫉㩷㪺㫌㫉㫉㪼㫅㫋㩷 㪍㪇㪇㩷 㫄㪘㩷
㪧㪚㩷 㪚㫆㫃㫃㪼㪺㫋㫆㫉㩷㪻㫀㫊㫊㫀㫇㪸㫋㫀㫆㫅㩷 㪈㪌㪇㩷 㪉㪇㪇㩷 㫄㪮㩷
㪫㫁㩷 㪡㫌㫅㪺㫋㫀㫆㫅㩷㫋㪼㫄㫇㪼㫉㪸㫋㫌㫉㪼㩷 㪂㪈㪌㪇㩷 㷄㩷
㪫㫊㫋㪾㩷 㪪㫋㫆㫉㪸㪾㪼㩷㫋㪼㫄㫇㪼㫉㪸㫋㫌㫉㪼㩷 㪄㪌㪌䌾㪂㪈㪌㪇㩷 㷄㩷
㪜㪣㪜㪚㪫㪩㪠㪚㪘㪣㩷㪚㪟㪘㪩㪘㪚㪫㪜㪩㪠㪪㪫㪠㪚㪪㩷㩿㪫㪸㪔㪉㪌㷄㪀㩷 㩷 㩷 㩷 㩷
㪣㪠㪤㪠㪫㩷
㪪㪰㪤㪙㪦㪣㩷 㪧㪘㪩㪘㪤㪜㪫㪜㪩㩷 㪫㪜㪪㪫㩷㪚㪦㪥㪛㪠㪫㪠㪦㪥㩷 㪬㪥㪠㪫
㪤㪠㪥㩷 㪫㪰㪧㩷 㪤㪘㪯㩷
㪭㩿㪙㪩㪀㪚㪙㪦㩷 㪚㩷㫋㫆㩷㪙㩷㪹㫉㪼㪸㫂㩷㪻㫆㫎㫅㩷㫍㫆㫃㫋㪸㪾㪼㩷 㪠㪚㪔㪌㪇㫫㪘䋬㪠㪜㪔㪇㫄㪘㩷 㪋㪇㩷 㪄㩷 㪄㩷 㪭㩷
㪭㩿㪙㪩㪀㪜㪙㪦㩷 㪜㩷㫋㫆㩷㪙㩷㪹㫉㪼㪸㫂㩷㪻㫆㫎㫅㩷㫍㫆㫃㫋㪸㪾㪼㩷 㪠㪜㪔㪌㪇㫫㪘䋬㪠㪚㪔㪇㫄㪘㩷 㪋㪇㩷 㪄㩷 㪄㩷 㪭㩷
㪭㩿㪙㪩㪀㪚㪜㪦㩷 㪚㩷㫋㫆㩷㪜㩷㪹㫉㪼㪸㫂㩷㪻㫆㫎㫅㩷㫍㫆㫃㫋㪸㪾㪼㩷 㪠㪚㪔㪈㫄㪘䋬㪩㪙㪜㪔㺙㩷 㪉㪇㩷 㪄㩷 㪄㩷 㪭㩷
㪠㪚㪙㪦㩷 㪚㫆㫃㫃㪼㪺㫋㫆㫉㩷㪺㫌㫋㩷㫆㪽㪽㩷㪺㫌㫉㫉㪼㫅㫋㩷 㪭㪚㪙㪔㪋㪇㪭䋬㪠㪜㪔㪇㫄㪘㩷 㪄㩷 㪄㩷 㪇㪅㪌㩷 㫫㪘㩷
㪠㪜㪙㪦㩷 㪜㫄㫀㫋㫋㪼㫉㩷㪺㫌㫋㩷㫆㪽㪽㩷㪺㫌㫉㫉㪼㫅㫋㩷 㪭㪜㪙㪔㪋㪇㪭䋬㪠㪚㪔㪇㫄㪘㩷 㪄㩷 㪄㩷 㪇㪅㪌㩷 㫫㪘㩷
㪿㪝㪜㩷 㪛㪚㩷㪽㫆㫉㫎㪸㫉㪻㩷㪺㫌㫉㫉㪼㫅㫋㩷㪾㪸㫀㫅㩷 㪭㪚㪜㪔㪌㪭䋬㪠㪚㪔㪈㪇㫄㪘㩷 㪏㪉㪇㩷 㪄㩷 㪉㪌㪇㪇㩷 䋭㩷
㪭㪚㪜㩿㫊㪸㫋㪀㩷 㪚㩷㫋㫆㩷㪜㩷㫊㪸㫋㫌㫉㪸㫋㫀㫆㫅㩷㫍㫆㫃㫋㪸㪾㪼㩷 㪠㪚㪔㪌㪇㫄㪘䋬㪠㪙㪔㪉㪅㪌㫄㪘㩷 㪄㩷 㪋㪇㩷 㪈㪌㪇㩷 㫄㪭㩷
㪽㪫㩷 㪞㪸㫀㫅㩷㪹㪸㫅㪻㩷㫎㫀㪻㫋㪿㩷㫇㫉㫆㪻㫌㪺㫋㩷 㪭㪚㪜㪔㪈㪇㪭䋬㪠㪜㪔㪄㪈㪇㫄㪘䋬㪽㪔㪈㪇㪇㪤㪟㫑㩷 㩷 㪄㩷 㪌㪇㩷 㪄㩷 㪤㪟㫑㩷
㪚㫆㪹㩷 㪚㫆㫃㫃㪼㪺㫋㫆㫉㩷㫆㫌㫋㫇㫌㫋㩷㪺㪸㫇㪸㪺㫀㫋㪸㫅㪺㪼㩷 㪭㪚㪙㪔㪈㪇㪭䋬㪠㪜㪔㪇㪘䋬㪽㪔㪈㪤㪟㫑㩷 㪄㩷 㪌㪅㪇㩷 㪄㩷 㫇㪝㩷
㪩㪦㪥㩷 㪦㫌㫋㫇㫌㫋㩷㵰㪦㪥㵱㩷㫉㪼㫊㫀㫊㫋㪸㫅㪺㪼㩷 㪠㪙㪔㪌㫄㪘䋬㪩㪣㪔㪈㫂㱅㩷 㪄㩷 㪇㪅㪍㪌㩷 㪄㩷 㱅㩷
㩷
㪫㪰㪧㪠㪚㪘㪣㩷㪚㪟㪘㪩㪘㪚㪫㪜㪩㪠㪪㪫㪠㪚㪪㩷
㩷
㩷
㪚㪦㪤㪤㪦㪥㩷㪜㪤㪠㪫㪫㪜㪩㩷㪦㪬㪫㪧㪬㪫 㪚㪦㪤㪤㪦㪥㩷㪜㪤㪠㪫㪫㪜㪩㩷㪫㪩㪘㪥㪪㪝㪜㪩
㩷 㪈㪇㪇 㪌㪇
㪫㪸㪔㪉㪌㷄 㪭㪚㪜㪔㪌㪭
㩷 㪈㪇㪇㫌㪘
㪐㪇㫌㪘 㪋㪇
㪏㪇
㩷
㪚㪦㪣㪣㪜㪚㪫㪦㪩㩷㪚㪬㪩㪩㪜㪥㪫㩷㪑㩷㪠㪚㩷㩿㫄㪘㪀
㪚㪦㪣㪣㪜㪚㪫㪦㪩㩷㪚㪬㪩㪩㪜㪥㪫㩷㪑㩷㪠㪚㩷㩿㫄㪘㪀
㪏㪇㫌㪘
㪎㪇㫌㪘
㩷 㪍㪇㫌㪘
㪍㪇 㪌㪇㫌㪘 㪊㪇
㩷 㪋㪇㫌㪘 㪫㪸㪔㪎㪌㷄
㪊㪇㫌㪘
㪉㪌㷄
㩷 㪋㪇
㪉㪇㫌㪘
㪉㪇
㪄㪋㪇㷄
㩷 㪈㪇㫌㪘
㪉㪇 㪈㪇
㩷
㩷 㪠㪙㪔㪇㫌㪘
㪇 㪇
㩷 㪇 㪈 㪉 㪊 㪋 㪌 㪇 㪇㪅㪉 㪇㪅㪋 㪇㪅㪍 㪇㪅㪏 㪈
㪚㪦㪣㪣㪜㪚㪫㪦㪩㩷㪫㪦㩷㪜㪤㪠㪫㪫㪜㪩㩷㪭㪦㪣㪫㪘㪞㪜㩷㪑㩷㪭㪚㪜㩷㩿㪭㪀 㪙㪘㪪㪜㩷㪫㪦㩷㪜㪤㪠㪫㪫㪜㪩㩷㪭㪦㪣㪫㪘㪞㪜㩷㪑㩷㪭㪙㪜㩷㩿㪭㪀
㩷
㩷
㩷
㩷
㩷
㩷
㪛㪚㩷㪝㪦㪩㪮㪘㪩㪛㩷㪚㪬㪩㪩㪜㪥㪫㩷㪞㪘㪠㪥 㪛㪚㩷㪩㪜㪭㪜㪩㪪㪜㩷㪚㪬㪩㪩㪜㪥㪫㩷㪞㪘㪠㪥㩷㪭㪪㪅㩷㪚㪦㪣㪣㪜㪩㪚㪫㪦㪩㩷㪚㪬㪩㪩㪜㪥㪫
㩷 㪈㪇㪇㪇㪇
㪭㪪㪅㩷㪚㪦㪣㪣㪜㪚㪫㪦㪩㩷㪚㪬㪩㪩㪜㪥㪫
㪈㪇㪇㪇㪇
㪭㪚㪜㪔㪌㪭 㪭㪜㪚㪔㪌㪭
㩷 㪫㪸㪔㪎㪌㷄
㪫㪸㪔㪎㪌㷄
㩷
㪛㪚㩷㪩㪜㪭㪜㪩㪪㪜㩷㪚㪬㪩㪩㪜㪥㪫㩷㪞㪘㪠㪥㩷㪑㩷㪿㪝㪜㪩
㪛㪚㩷㪝㪦㪩㪮㪘㪩㪛㩷㪚㪬㪩㪩㪜㪥㪫㩷㪞㪘㪠㪥㩷㪑㩷㪿㪝㪜
㪈㪇㪇㪇 㪈㪇㪇㪇
㩷 㪉㪌㷄
㪉㪌㷄
㪄㪋㪇㷄
㩷 㪄㪋㪇㷄
㪈㪇㪇 㪈㪇㪇
㩷
㩷
㪈㪇 㪈㪇
㩷
㩷
㪈
㩷 㪇㪅㪈 㪈 㪈㪇 㪈㪇㪇 㪈㪇㪇㪇
㪈
㪇㪅㪈 㪈 㪈㪇 㪈㪇㪇 㪈㪇㪇㪇
㪚㪦㪣㪣㪜㪚㪫㪦㪩㩷㪚㪬㪩㪩㪜㪥㪫㩷㪑㩷㪠㪚㩷㩿㫄㪘㪀 㪚㪦㪣㪣㪜㪚㪫㪦㪩㩷㪚㪬㪩㪩㪜㪥㪫㩷㪑㩷㪄㪠㪚㩷㩿㫄㪘㪀
㩷
㩷 㪞㪘㪠㪥㩷㪙㪘㪥㪛㩷㪮㪠㪛㪫㪟㩷㪧㪩㪦㪛㪬㪚㪫
㪚㪦㪣㪣㪜㪚㪫㪦㪩㩷㪫㪦㩷㪜㪤㪠㪫㪫㪜㪩㩷㪪㪘㪫㪬㪩㪘㪫㪠㪦㪥㩷㪭㪦㪣㪫㪘㪞㪜 㪭㪪㪅㩷㪜㪤㪠㪫㪫㪜㪩㩷㪚㪬㪩㪩㪜㪥㪫
㪭㪪㪅㩷㪚㪦㪣㪣㪜㪚㪫㪦㪩㩷㪚㪬㪩㪩㪜㪥㪫 㪈㪇㪇
㩷 㪈㪇㪇㪇 㪫㪸㪔㪉㪌㷄
㪚㪦㪣㪣㪜㪚㪫㪦㪩㩷㪫㪦㩷㪜㪤㪠㪫㪫㪜㪩㩷㪪㪘㪫㪬㪩㪘㪫㪠㪦㪥㩷㪭㪦㪣㪫㪘㪞㪜
㪠㪚㪆㪠㪙㪔㪉㪇 㪭㪚㪜㪔㪈㪇㪭
㩷
㪞㪘㪠㪥㩷㪙㪘㪥㪛㩷㪮㪠㪛㪫㪟㩷㪧㪩㪦㪛㪬㪚㪫㩷㪑㩷㪽㪫㩿㪤㪟㫑㪀
㪏㪇
㩷
㩷 㪈㪇㪇
㪍㪇
㪭㪚㪜㩿㫊㪸㫋㪀㩷㩿㫄㪭㪀
㩷 㪫㪸㪔㪎㪌㷄
㩷 㪋㪇
㪈㪇
㩷 㪉㪌㷄
㪄㪋㪇㷄 㪉㪇
㩷
㩷 㪇
㪈
㪄㪈 㪄㪈㪇 㪄㪈㪇㪇
㩷 㪇㪅㪈 㪈 㪈㪇 㪈㪇㪇 㪈㪇㪇㪇
㪜㪤㪠㪫㪫㪜㪩㩷㪚㪬㪩㪩㪜㪥㪫㩷㪑㩷㪠㪜㩿㫄㪘㪀
㪚㪦㪣㪣㪜㪚㪫㪦㪩㩷㪚㪬㪩㪩㪜㪥㪫㩷㪑㩷㪠㪚㩷㩿㫄㪘㪀
㩷
㪚㪦㪣㪣㪜㪚㪫㪦㪩㩷㪦㪬㪫㪧㪬㪫㩷㪚㪘㪧㪘㪚㪠㪫㪘㪥㪚㪜
㩷 㪭㪪㪅㩷㪚㪦㪣㪣㪜㪚㪫㪦㪩㩷㪫㪦㩷㪙㪘㪪㪜㩷㪭㪦㪣㪫㪘㪞㪜 㪦㪥㩷㪩㪜㪪㪠㪪㪫㪘㪥㪚㪜㩷㪭㪪㪅㩷㪙㪘㪪㪜㩷㪚㪬㪩㪩㪜㪥㪫
㪈㪇㪇 㪈㪇㪇
㩷 㪫㪸㪔㪉㪌㷄
㪚㪦㪣㪣㪜㪚㪫㪦㪩㩷㪦㪬㪫㪧㪬㪫㩷㪚㪘㪧㪘㪚㪠㪫㪘㪥㪚㪜㩷㪑㩷㪚㫆㪹㩿㫇㪝㪀
㩷
㩷
㪦㪥㩷㪩㪜㪪㪠㪪㪫㪘㪥㪚㪜㩷㪑㩷㪩㫆㫅㩷㩿㱅㪀
㪈㪇 㪈㪇
㩷
㪫㪸㪔㪎㪌㷄
㩷
㩷
㪈 㪈
㩷 㪉㪌㷄
㪄㪋㪇㷄
㩷
㩷
㪇㪅㪈 㪇㪅㪈
㪇㪅㪈 㪈 㪈㪇 㪈㪇㪇 㪇㪅㪇㪈 㪇㪅㪈 㪈 㪈㪇
㪚㪦㪣㪣㪜㪚㪫㪦㪩㩷㪫㪦㩷㪙㪘㪪㪜㩷㪭㪦㪣㪫㪘㪞㪜㩷㪑㩷㪭㪚㪙㩿㪭㪀 㪙㪘㪪㪜㩷㪚㪬㪩㪩㪜㪥㪫㩷㪑㩷㪠㪙㩷㩿㫄㪘㪀
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Harman Kardon AVR 161 Service Manual
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Harman Kardon AVR 161 Service Manual
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Harman Kardon AVR 161 Service Manual
㩷 㩷
㩷
㩷 䇴㪫㫉㪸㫅㫊㫀㫊㫋㫆㫉䇵
㩷 䌒䌔䋱䌎䋴䋴䋱䌘㩷㪪㪜㪩㪠㪜㪪㩷 㩷 㪫㫉㪸㫅㫊㫀㫊㫋㫆㫉㩷㪮㫀㫋㪿㩷㪩㪼㫊㫀㫊㫋㫆㫉㩷
㩷 㩷 㩷 㩷 㪝㫆㫉㩷㪪㫎㫀㫋㪺㪿㫀㫅㪾㩷㪘㫇㫇㫃㫀㪺㪸㫋㫀㫆㫅㩷
㩷 㩷 㩷 㪪㫀㫃㫀㪺㫆㫅㩷㪥㪧㪥㩷㪜㫇㫀㫋㪸㫏㫀㪸㫃㩷㪫㫐㫇㪼㩷
㪇㪅㪊㩷
㪇㪅㪋㩷
㪇㪅㪐㪌㩷
㩷
㪇㪅㪌㩷
Ԙ Ԙ㩷
㩷
㪈㪅㪐㪇㩷
㪈㪅㪍㩷
㪈㪅㪇㩷
㪉㪅㪐㩷
㩷
㪇㪅㪐㪌㩷
㪇㪅㪌㩷
㩷 ԙ Ԛ ԙ㩷 Ԛ
㪘㪧㪧㪣㪠㪚㪘㪫㪠㪦㪥㩷 㩷
㩷
㪠㫅㫍㪼㫉㫋㪼㪻㩷㪺㫀㫉㪺㫌㫀㫋㪃㫊㫎㫀㫋㪺㪿㫀㫅㪾㩷㪺㫀㫉㪺㫌㫀㫋㪃㫀㫅㫋㪼㫉㪽㪸㪺㪼㩷㪺㫀㫉㪺㫌㫀㫋㪃㩷 㩷
㪻㫉㫀㫍㪼㫉㩷㪺㫀㫉㪺㫌㫀㫋㪅㩷 㩷
㪇㪅㪎㩷
㪈㪅㪈㩷
㪇㪅㪈㪌㩷
㪇㪅㪈㪍㩷
㩷
㪇㪅㪌㪌㩷
㪇㪅㪏㩷
㩷
㩷 㩷
㪇㨪㪇㪅㪈㩷
㪇㨪㪇㪅㪈㩷
㪜㫈㫌㫀㫍㪸㫃㪼㫅㫋㩷㪺㫀㫉㪺㫌㫀㫋㩷 㩷
㩷
㩷 㩷 㩷
㩷 㩷 㪚㩷 㩷
㩿㪦㪬㪫㪀㩷 㪡㪜㪠㪫㪘䋺䋭㩷 㩷 㩷 㩷 㩷 㪡㪜㪠㪫㪘䋺㪪㪚㪄㪌㪐㩷
㪩㪈㩷 㪡㪜㪛㪜㪚䋺䋭㩷 㪡㪜㪛㪜㪚䋺㪪㫀㫄㫀㫃㪸㫉㩷㫋㫆㩷㪫㪦㪄㪉㪊㪍㩷
㪙㩷
㩿㪠㪥㪀㩷 㪫㪼㫉㫄㫀㫅㪸㫃㩷㪚㫆㫅㫅㪼㪺㫋㫆㫉㩷 㪫㪼㫉㫄㫀㫅㪸㫃㩷㪚㫆㫅㫅㪼㪺㫋㫆㫉㩷
㪩㪉㩷 㽲䋺㪙㪸㫊㪼㩷 㽲䋺㪙㪸㫊㪼㩷
㽳䋺㪜㫄㫀㫋㫋㪼㫉㩷 㽳䋺㪜㫄㫀㫋㫋㪼㫉㩷
㪜㩷 㽴䋺㪚㫆㫃㫃㪼㪺㫋㫆㫉㩷 㽴䋺㪚㫆㫃㫃㪼㪺㫋㫆㫉㩷
㩿㪞㪥㪛㪀㩷
㩷 㪩㪫㪈㪥㪋㪋㪈㪤㩷 㪩㪫㪈㪥㪋㪋㪈㪪㩷
㪩㪫㪈㪥㪋㪋㪈㪫㪉㩷 㪋㪅㪇
㩷 㪉㪅㪈 㩷
㪈㪅㪉㪈 㪇㪅㪋㪉㪌 㪈㪅㪉㪌 㪇㪅㪋㪉㪌 㩷
㪇㪅㪏㪈
㪊㪅㪇㩷
㪇㪅㪉 㪇㪅㪉㩷
㩷
㩷
㪇㪅㪊㩷
㪇㪅㪍㪌㩷
㩷
㪈㪅㪇㩷
㪇㪅㪉㪌㩷
Ԙ 㪇㪅㪈
㪇㪅㪋㩷
㩷
㪈㪅㪇㩷
Ԙ㩷
㪉㪅㪇㩷
㪈㪅㪊㩷
㪈㪋㪅㪇㩷
㪈㪅㪉㪈㩷
㪇㪅㪍㪌㩷
㩷 㪇㪅㪋㪌
㪇㪅㪏㩷
ԙ Ԛ 㩷
㪇㪅㪋㩷
ԙ㩷 Ԛ㩷
㩷
㩷
㩷 㪈㪅㪉㪎 㪈㪅㪉㪎
㩷
㪇㪅㪐㩷
㪇㪅㪈㪌㩷
㪇㪅㪋㩷
㩷
㪇㪅㩷㪌㩷
㪇㪅㪎㩷
㩷
㪉㪅㪌㩷
㩷 Ԙ㩷 ԙ Ԛ
㪇㨪㪇㪅㪈㩷
㩷
㩷
㪡㪜㪠㪫㪘䇮㪡㪜㪛㪜㪚䋺㪄㩷
㪠㪪㪘㪟㪘㪰㪘䋺㪫㪄㪬㪪㪤㩷 㪡㪜㪠㪫㪘䋺㪪㪚㪄㪎㪇㩷 㪡㪜㪠㪫㪘䋺䋭㩷
㪡㪜㪛㪜㪚䋺䋭㩷 㪡㪜㪛㪜㪚䋺䋭㩷
㪫㪼㫉㫄㫀㫅㪸㫃㩷 㪚㫆㫅㫅㪼㪺㫋㫆㫉㩷 㪫㪼㫉㫄㫀㫅㪸㫃㩷㪚㫆㫅㫅㪼㪺㫋㫆㫉㩷 㪫㪼㫉㫄㫀㫅㪸㫃㩷㪚㫆㫅㫅㪼㪺㫋㫆㫉㩷
㽲䋺㪙㪸㫊㪼㩷 㽲䋺㪙㪸㫊㪼㩷 㽲䋺㪜㫄㫀㫋㫋㪼㫉㩷
㽳䋺㪜㫄㫀㫋㫋㪼㫉㩷 㽳䋺㪜㫄㫀㫋㫋㪼㫉㩷 㽳䋺㪚㫆㫃㫃㪼㪺㫋㫆㫉㩷
㽴䋺㪚㫆㫃㫃㪼㪺㫋㫆㫉㩷 㽴䋺㪚㫆㫃㫃㪼㪺㫋㫆㫉㩷 㽴䋺㪙㪸㫊㪼㩷
㩷 㩷
㩷
㩷 䇴㪫㫉㪸㫅㫊㫀㫊㫋㫆㫉䇵
㩷 䌒䌔䋱䌎䋲䋴䋱䌘㩷㪪㪜㪩㪠㪜㪪㩷 㩷 㪫㫉㪸㫅㫊㫀㫊㫋㫆㫉㩷㪮㫀㫋㪿㩷㪩㪼㫊㫀㫊㫋㫆㫉㩷
㩷 㩷 㩷 㩷 㪝㫆㫉㩷㪪㫎㫀㫋㪺㪿㫀㫅㪾㩷㪘㫇㫇㫃㫀㪺㪸㫋㫀㫆㫅㩷
㩷 㩷 㩷 㪪㫀㫃㫀㪺㫆㫅㩷㪥㪧㪥㩷㪜㫇㫀㫋㪸㫏㫀㪸㫃㩷㪫㫐㫇㪼㩷
㩷
㪛㪜㪪㪚㪩㪠㪧㪫㪠㪦㪥㩷 㪦㪬㪫㪣㪠㪥㪜㩷 㩷 㪛㪩㪘㪮㪠㪥㪞㩷 㩷 㩷 㩷 㩷 㩷 㩷 㪬㪥㪠㪫䋺㫄㫄
㪩㪫㪈㪥㪉㪋㪈㪯㩷 㩷 㫀㫊㩷 㩷 㪸㩷 㩷 㫆㫅㪼㩷㪺㪿㫀㫇㩷㫋㫉㪸㫅㫊㫀㫊㫋㫆㫉㩷
㪩㪫㪈㪥㪉㪋㪈㪬㩷 㪩㪫㪈㪥㪉㪋㪈㪚㩷
㫎㫀㫋㪿㩷㪹㫌㫀㫃㫋㪄㫀㫅㩷㪹㫀㪸㫊㩷㫉㪼㫊㫀㫊㫋㫆㫉㪃㪧㪥㪧㩷㫋㫐㫇㪼㩷㫀㫊㩷㪩㪫㪈㪧㪉㪋㪈㪯㪅
㩷 㩷 㩷
㩷 㩷 㪈㪅㪍 㪉㪅㪌
㩷 㪇㪅㪋 㪇㪅㪏 㪇㪅㪋 㪇㪅㪌㩷 㪈㪅㪌 㪇㪅㪌
㪝㪜㪘㪫㪬㪩㪜㩷 㩷
䊶㪙㫌㫀㫃㫋㪄㫀㫅㩷㪹㫀㪸㫊㩷㫉㪼㫊㫀㫊㫋㫆㫉㩷㩿㪩㪈㪔㪉㪉㫂㱅㪃㪩㪉㪔㪉㪉㫂㱅㪀㪅㩷 㩷
㪇㪅㪊㩷
㪇㪅㪋㩷
㪇㪅㪐㪌㩷
㩷
㪇㪅㪌㩷
Ԙ Ԙ㩷
㩷
㪈㪅㪐㪇㩷
㪈㪅㪍㩷
㪈㪅㪇㩷
㪉㪅㪐㩷
㩷
㪇㪅㪐㪌㩷
㪇㪅㪌㩷
㩷 ԙ Ԛ ԙ㩷 Ԛ
㪘㪧㪧㪣㪠㪚㪘㪫㪠㪦㪥㩷 㩷
㩷
㪠㫅㫍㪼㫉㫋㪼㪻㩷㪺㫀㫉㪺㫌㫀㫋㪃㫊㫎㫀㫋㪺㪿㫀㫅㪾㩷㪺㫀㫉㪺㫌㫀㫋㪃㫀㫅㫋㪼㫉㪽㪸㪺㪼㩷㪺㫀㫉㪺㫌㫀㫋㪃㩷 㩷
㪻㫉㫀㫍㪼㫉㩷㪺㫀㫉㪺㫌㫀㫋㪅㩷 㩷
㪇㪅㪎㩷
㪈㪅㪈㩷
㪇㪅㪈㪌㩷
㪇㪅㪈㪍㩷
㩷
㪇㪅㪌㪌㩷
㪇㪅㪏㩷
㩷
㩷 㩷
㪇㨪㪇㪅㪈㩷
㪇㨪㪇㪅㪈㩷
㪜㫈㫌㫀㫍㪸㫃㪼㫅㫋㩷㪺㫀㫉㪺㫌㫀㫋㩷 㩷
㩷
㩷 㩷 㩷
㩷 㩷 㪚㩷 㩷
㩿㪦㪬㪫㪀㩷 㪡㪜㪠㪫㪘䋺䋭㩷 㩷 㩷 㩷 㩷 㪡㪜㪠㪫㪘䋺㪪㪚㪄㪌㪐㩷
㪩㪈㩷 㪡㪜㪛㪜㪚䋺䋭㩷 㪡㪜㪛㪜㪚䋺㪪㫀㫄㫀㫃㪸㫉㩷㫋㫆㩷㪫㪦㪄㪉㪊㪍㩷
㪙㩷
㩿㪠㪥㪀㩷 㪫㪼㫉㫄㫀㫅㪸㫃㩷㪚㫆㫅㫅㪼㪺㫋㫆㫉㩷 㪫㪼㫉㫄㫀㫅㪸㫃㩷㪚㫆㫅㫅㪼㪺㫋㫆㫉㩷
㪩㪉㩷 㽲䋺㪙㪸㫊㪼㩷 㽲䋺㪙㪸㫊㪼㩷
㽳䋺㪜㫄㫀㫋㫋㪼㫉㩷 㽳䋺㪜㫄㫀㫋㫋㪼㫉㩷
㪜㩷 㽴䋺㪚㫆㫃㫃㪼㪺㫋㫆㫉㩷 㽴䋺㪚㫆㫃㫃㪼㪺㫋㫆㫉㩷
㩿㪞㪥㪛㪀㩷
㩷 㩷
㩷
㪩㪫㪈㪥㪉㪋㪈㪫㪉㩷 㪩㪫㪈㪥㪉㪋㪈㪤 㪩㪫㪈㪥㪉㪋㪈㪪
㩷 㩷
㩷 㪉㪅㪈 㩷
㩷 㪈㪅㪉㪈 㪋㪅㪇
㪇㪅㪋㪉㪌 㪈㪅㪉㪌 㪇㪅㪋㪉㪌 㩷
㩷 㪇㪅㪉 㪇㪅㪏㪈 㪇㪅㪉㩷 㩷
㩷
㪊㪅㪇㩷
㩷
㩷 㩷
㪇㪅㪊㩷
㪇㪅㪍㪌㩷
㪇㪅㪉㪌㩷
㩷 Ԙ 㩷
㪇㪅㪋㩷
㪈㪅㪇㩷
Ԙ㩷 㪇㪅㪈
㪉㪅㪇㩷
㪈㪅㪊㩷
㩷 㩷
㪈㪅㪉㪈㩷
㪇㪅㪍㪌㩷
㪇㪅㪏㩷
㪈㪅㪇㩷
㪈㪋㪅㪇㩷
㩷 ԙ Ԛ 㩷
㪇㪅㪋㩷
ԙ㩷 㪇㪅㪋㪌
㩷 Ԛ㩷 㩷
㩷 㩷
㩷 㩷
㩷 㩷 㪈㪅㪉㪎 㪈㪅㪉㪎
㩷 㩷
㪇㪅㪐㩷
㪇㪅㪈㪌㩷
㪇㪅㪎㩷
㪇㪅㪌㩷
㩷 㩷
㪇㪅㪋㩷
㩷 㩷
㪇㨪㪇㪅㪈㩷
㪉㪅㪌㩷
㩷 㩷 Ԙ㩷 ԙ Ԛ
㩷
㪡㪜㪠㪫㪘㪃㩷㪡㪜㪛㪜㪚䋺䋭㩷 㪡㪜㪠㪫㪘䋺㪪㪚㪄㪎㪇㩷 㪡㪜㪠㪫㪘䋺䋭㩷
㪠㪪㪘㪟㪘㪰㪘䋺㪫㪄㪬㪪㪤㩷 㪡㪜㪛㪜㪚䋺䋭㩷 㪡㪜㪛㪜㪚䋺䋭㩷
㪫㪼㫉㫄㫀㫅㪸㫃㩷㪚㫆㫅㫅㪼㪺㫋㫆㫉㩷 㪫㪼㫉㫄㫀㫅㪸㫃㩷㪚㫆㫅㫅㪼㪺㫋㫆㫉㩷 㪫㪼㫉㫄㫀㫅㪸㫃㩷㪚㫆㫅㫅㪼㪺㫋㫆㫉㩷
㽲䋺㪙㪸㫊㪼㩷 㽲䋺㪙㪸㫊㪼㩷 㽲䋺㪜㫄㫀㫋㫋㪼㫉㩷
㽳䋺㪜㫄㫀㫋㫋㪼㫉㩷 㽳䋺㪜㫄㫀㫋㫋㪼㫉㩷 㽳䋺㪚㫆㫃㫃㪼㪺㫋㫆㫉㩷
㽴䋺㪚㫆㫃㫃㪼㪺㫋㫆㫉㩷
㽴䋺㪚㫆㫃㫃㪼㪺㫋㫆㫉㩷 㽴䋺㪙㪸㫊㪼㩷
㩷
㩷
ISAHAYA ELECTRONICS CORPORATION
Page 79 of 178
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Transistor
SERIES Transistor With Resistor
For Switching Application
Silicon NPN Epitaxial Type
1.6 2.5
0.4 0.8 0.4 0.5 1.5 0.5
FEATURE
Built-in bias resistor (R1=10k,R2=47k).
0.3
0.4
0.95
0.5
1.90
1.6
1.0
2.9
0.95
0.5
APPLICATION
Inverted circuit,switching circuit,interface circuit,
driver circuit.
0.7
1.1
0.15
0.16
0.55
0.8
Equivalent circuit
00.1
00.1
C
(OUT) JEITA JEITA SC-59
R1 JEDEC JEDEC Similar to TO-236
B
(IN) Terminal Connector Terminal Connector
R2 Base Base
Emitter Emitter
E Collector Collector
(GND)
RT1N144M RT1N144T2
RT1N144S
1.21
2.1
4.0
0.425 1.25 0.425 0.2 0.81 0.2
3.0
0.25
0.3
0.65
0.4
1.21
1.0
0.1
0.8
2.0
1.3
0.65
1.0
0.4
14.0
0.45
1.27 1.27
0. 5
0.9
0.15
0.7
0.4
2.5
00.1
JEITA
JEITA SC-70 JEITA, JEDEC
JEDEC
JEDEC ISAHAYA T-USM
Terminal Connector Terminal Connector
Terminal Connector
Base Base
Emitter
Emitter Emitter
Collector
Collector Collector
Base
Transistor
SERIES Transistor With Resistor
For Switching Application
Silicon NPN Epitaxial Type
COLLECTOR DISSIPATION
VS AMBIENT TEMPERTURE
600
RT1N144S
COLLECTOR DISSIPATION Pc (mW)
500
RT1N144C
RT1N144M
400
RT1N144U
300
RT1N144T2
200
100
0
0 25 50 75 100 125 150 175
AMBIENT TEMPERTURE Ta ()
Transistor
SERIES Transistor With Resistor
For Switching Application
Silicon NPN Epitaxial Type
DC FORWARD CURRENT GAIN
COMMON EMITTER OUTPUT VS COLLECTOR CURRENT
30 1000
Ta=25 IB=0.10mA VCE=5V
Ta=100
IB=0.08mA
20 100
IB=0.07mA
Ta=25
IB=0.06mA
15
Ta=-40
IB=0.05mA
10 10
IB=0.04mA
IB=0.03mA
5
IB=0.02mA
0 1
0 1 2 3 4 5 6 0.1 1 10 100
COLLECTOR TO EMITTER VOLTAGE VCE(V) COLLECTOR CURRENT IC(mA)
Ta=100
Ta=-40
100
1
Ta=-40
Ta=25
10
Ta=100 Ta=25
0.1 1
0.1 1 10 100 0 0.5 1 1.5 2
INPUT OFF VOLTAGE VI(OFF)(V)
COLLECTOR CURRENT IC(mA)
COLLECTOR TO EMITTER SATURATION COLLECTOR OUTPUT CAPACITANCE VS.
VOLTAGE VS. COLLECTOR CURRENT COLLECTOR TO BASE VOLTAGE
1000 5
COLLECTOR OUTPUT CAPACITANCE Cob(pF)
IC/IB=20/1 IE=0A
COLLECTOR TO EMITTER STURATION
Ta=25
4
VOLTAGEVCE(sat)(mV)
Ta=100
3
100
Ta=25
Ta=-40 1
10 0
1 10 100 0.1 1 10 100
COLLECTOR CURRENT IC(mA)
COLLECTOR TO BASE VOLTAGE VCB(V)
63(&,),&$7,212)00%7
1. Overview
1.1 Description
LM7900 series of fixed output negative voltage regulators are intended as complement
to LM7800 series devices. These negative regulators are available in the same even-voltage options
as the LM7800 devices
1.2 Features
• No external components required
• Output voltages (5V, 6V, 8V, 9V, 10V, 12V, 15V, 18V, 24V)
• Internal Thermal shutdown and SOA protection
• Output voltage offered in 4% Tolerance
• Pb-Free Packages are available
• High ESD Level (HBM>8,000V, MM>800V)
Input 2 3 Output
LM7905
CI 1 CO
2.2㎌ 0.1㎌
The input voltage must remain typically 2.0V below the output voltage even during the
high point on the ripple voltage.
1. GND
2. INPUT
123 123 123 3. OUTPUT
TO-220F TO-220 D-PAK(TO-252)
CONFIDENTIAL 2012-04-16
- 3/20 -
Page 84 of 178
Harman Kardon AVR 161 Service Manual
1. Overview
1.1 Description
The voltage regulators are designed as fixed-voltage regulator for a wide variety of applications
Including local,on-card regulation. Although designed primarily as a fixed voltage regulator,
these devices can be used with external components to obtain adjustable voltages and currents
1.2 Features
• Output current in excess of 1.0A
• No external components required
• Output voltages (5V, 6V, 8V, 9V, 10V, 12V, 15V, 18V, 24V)
• Internal Thermal shutdown and SOA protection
• Output voltage offered in 4% Tolerance
• Pb-Free Packages are available
• High ESD Level (HBM>8,000V, MM>800V)
Input 1 3 Output
LM7805
CI 2 CO
0.33㎌ 0.1㎌
The input voltage must remain typically 2.0V above the output voltage even during the
low point on the ripple voltage.
1. INPUT
2. GND
123 123 123 3. OUTPUT
CONFIDENTIAL 2012-04-16
- 3/21 -
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ESMT/EMP EML3418
Fig. 1
Fig. 2
Elite Semiconductor Memory Technology Inc./Elite Micropower Inc. Publication Date: Jan. 2011
Revision: 2.3 1/17
Page 92 of 178
Harman Kardon AVR 161 Service Manual
ESMT/EMP EML3418
Connection Diagram Order information
EML3418-00SE08GRR/NRR
SOP-8FD Package
00 Adj Operation
SE08 SOP-8FD package
GRR RoHS (Pb Free)
Rating: -40 to 85°C
Package in Tape & Reel
NRR RoHS & Halogen free (By Request)
Rating: -40 to 85°C
Package in Tape & Reel
5Kpcs
TDFN-8 Adj EML3418-00FF08NRR Tape & Reel
3Kpcs
SOP-8FD Adj EML3418-00SE08GRR Tape & Reel
Elite Semiconductor Memory Technology Inc./Elite Micropower Inc. Publication Date: Jan. 2011
Revision: 2.3 2/17
Page 93 of 178
Harman Kardon AVR 161 Service Manual
ESMT/EMP EML3418
Package Configuration
SOP-8 Adjustable
Pin Functions
Pin # Pin Name Function
VFB Feedback Pin. Receives the feedback voltage from an external
(Adjustable) resistive divider across the output.
1 VOUT Output Voltage Pin. An internal resistive divider divides the output
(Fixed voltage down for comparison to the internal reference voltage.
voltage)
2 VSS_CLN Analog Ground Pin.
3 VSS_PWR Power Ground Pin.
Switch Pin. Must be connected to Inductor. This pin connects to
4 SW the drains of the internal main and synchronous power MOSFET
switches.
Power Input Pin. Must be closely decoupled to GND pin with a
5, 6 VIN_PWR
4.7μF or greater ceramic capacitor.
Analog Input Pin. Must be closely decoupled to GND pin with a
7 VIN_CLN
4.7μF or greater ceramic capacitor.
Enable Pin. Minimum 1.2V to enable the device. Maximum 0.4V
8 EN to shut down the device. Do not leave this pin floating and
enable the chip after Vin is in the input voltage range.
Exposed
Connect to Ground.
pad
Elite Semiconductor Memory Technology Inc./Elite Micropower Inc. Publication Date: Jan. 2011
Revision: 2.3 3/17
Page 94 of 178
Harman Kardon AVR 161 Service Manual
DB1514A
1.5A, Low Dropout Regulator with Power Good
DESCRIPTION FEATURES
The DB1514A is a very low dropout voltage linear Input Voltage Range: 2.5V to 6.0V
regulator which can operate from the input Low Quiescent Current: Typ. 300uA @
voltages as low as 2.5V and is capable of Current limit : Min. 1.8A
delivering the continuous output load current up Adjustable Output from 0.5V
to 1.5A. DB1514A: Typ 0.4V Dropout @ IOUT=1.5A
It has a low dropout voltage (maximum 300mV at Max 0.28V Dropout @ IOUT=1A
1A), a very low quiescent current (typically 300uA Max 0.2V Dropout @ IOUT=0.5A
at 0.1A) and very high PSRR up to 86dB at 1A Compatible with MLCC Capacitors
load current. Soft-Start Limits Inrush Current
The output voltage can be set from 0.5V to (VIN - Thermal Shutdown Protection
VDRP) with an external resistor divider and it has Over Current & Short Circuit Protection
±2% accuracy through all temperature ranges
include the line as well as load variations. APPLICATIONS
It is allowed to use a small 4.7μF MLCC input and TV & STB application
output capacitor to deliver the current with the Servers
stable operation. Networking
An internal Soft-Start function reduces the inrush Notebook
current and the other features are include over Optical Modules
current protection (OCP), short-circuit protection Post Regulators
(SCP), and thermal shut down protection (TSD).
ORDERING INFORMATION
The DB1514A is available in 8-SOP-EP package
with exposed pad for optimal power dissipation PART NUMBER PACKAGE
and 8-TDFN(3mmx3mm). DB1514AHETR 8-SOP-EP
DB1514ADLTR 8-TDFN(3x3)
TYPICAL APPLICATION
1 of 10 Datasheet AT1514AF-00
16. Sep. 2010
Page 95 of 178
Harman Kardon AVR 161 Service Manual
DB1514A
PIN DESCRIPTION
PIN NO SYMBOL
DESCRIPTION
8-TDFN 8-SOP-EP
7 5 PG Open Drain Power-Good (PG) Output.
8 6 EN Enable Input.
1,2 7,8 VIN Input Supply Voltage Pin.
3,4 1,2 OUT Output pin
Feedback Pin. Connect to output through a voltage-divider to set
5 3 FB the output. Recommended that the tolerance of feedback
resistors is below 1%.
6 4 GND Ground Pin
EP EP Exposed pad Should be connected to GND for Heatsink.
PIN CONFIGURATION
TOP VIEW
8-TDFN(3x3) 8-SOP-EP
BLOCK DIAGRAM
2 of 10 Datasheet AT1514AF-00
16. Sep. 2010
Page 96 of 178
Harman Kardon AVR 161 Service Manual
DB1230
3A, 700KHz, Synchronous Step-down Converter
DESCRIPTION FEATURES
The DB1230 is a high frequency synchronous 4.5V to 16V operating input range.
rectified step-down regulator which integrates an High-side 110 mΩ, low-side 85 mΩ
110mΩ high-side power MOSFET and an 85mΩ Built-in power MOSFETs.
low-side power MOSFET. Fixed PWM 700kHz switching frequency.
It provides easy & compact solution to implement Output voltage accuracy : ± 2%
3A continuous output current over a wide range 3A continuous output current.
input from 4.5V to 16V with a good load and line Low reference voltage : 0.8V
regulation. Programmable soft-start.
The current-mode control operation provides a Internal Compensation.
good loop-stability under any system condition Built-in SCP, OCP, TSD Protection.
and fast transient response. Thermally Enhanced 8-SOP-EP Package
According to an internal compensation and a high
frequency operation, the DB1230 requires a few
number of external components mentioned in the
APPLICATIONS
basic dc-dc power system. Digital Set Top Boxes.
The built-in protections are allowed to have a Personal Video Recorder.
simple design and a robust operation. Flat Panel TV & Monitor.
Distributed Power Systems.
For a good thermal performance, the DB1230
uses an internal temperature independent voltage
reference and the package that has low θJA ORDERING INFORMATION
(<50°C/W)
PART NUMBER PACKAGE
It is available in 8-pin SOP-EP or 14-pin TSSOP
package with an exposed pad. DB1230HETR 8-SOP-EP
DB1230HPTR 14-TSSOP-EP
Page 97 of 178
Harman Kardon AVR 161 Service Manual
DB1230
PIN DESCRIPTION
PIN NO. SYMBOL DESCRIPTION
Enable pin.
1 EN For automatic start-up, please leave it open and in case of on/off control, there
should be pull-down resistor.(10K~100Kohm)
Feedback pin.
2 FB External resistors are connected between OUT and GND to set the regulated
output voltage based on 0.8V reference.
Internal regulated output.
3 VCC
A decoupling capacitor should be close to this pin as possible
External soft-start program pin.
4 SS
An external capacitor should be connected to GND.
5 GND Ground.
Switching Node.
6 SW
An inductor, internal high-side and low-side power switches are connected
Bootstrap pin.
7 BS The bootstrap charge capacitor should be connected between BS and SW to
provide a supply to gate driver of high-side power switch.
8 IN Input power supply pin.
Exposed pad. Connect the exposed pad to GND for heat sink.
EP Exposed Pad
This pin combines thermal sink and power ground.
PIN CONFIGURATION
TOP VIEW
8-SOP-EP Package
Page 98 of 178
Harman Kardon AVR 161 Service Manual
DB1510B
1A, 0.8V Dropout LDO Regulator
DESCRIPTION FEATURES
The DB1510B low-dropout linear regulator Input Voltage Range: 2.2V to 6.0V
operates from input voltages as low as 2.2V and Quiescent Current: Typ. 400uA
are able to deliver up to 1A of continuous output Current limit : Min. 1.2A
current the DB1510B offers low dropout (typically Dropout Voltage: Typ. 800mV @ 1A
800mV at 1A) and low quiescent current (typically
L
Compatible with MLCC Capacitors
400uA at 0.1A).
Soft-Start Limits Inrush Current
A
Fixed output voltages of the DB1510B are 1.0V, Thermal Shutdown Protection
1.2V, 1.5V, 1.8V, 2.5V, 2.8V, 3.3V & 3.5V and the Over Current & Short Circuit Protection
TI
output voltage is 2% accurate over load and line
variations. These regulators use small 2.2μF APPLICATIONS
EN
MLCC input capacitor and 4.7μF MLCC output
capacitors to deliver 1A output current. Servers
Storage
Soft-start reduces inrush current. The other Networking
features include over current protection (OCP),
D
Optical Modules
short-circuit protection (SCP), and thermal shut
Post Regulators
down protection (TSD).
FI
Notebooks
The DB1510B is packaged SOT-223, TO-252 & PDA
8-pin thin dual flat no lead (TDFN) package that a N
heat sink or an exposed pad for optimal power ORDERING INFORMATION
dissipation.
O
PART NUMBER PACKAGE
DB1510BT3TRxxNOTE1) TO-252 (I)
C
1.8V (18), 2.5V (25), 2.8V (28), 3.3V (33) & 3.5V (35)
H
TYPICAL APPLICATION
3-Lead Application Circuit Power Supply Ripple Rejection
U
B
G
N
1 of 8 Datasheet AT1510BF-01
9. Nov. 2009
Page 99 of 178
Harman Kardon AVR 161 Service Manual
DB1510B
PIN DESCRIPTION
PIN NO
TO-252 (I) TO-252 (II) SYMBOL DESCRIPTION
8-TDFN
SOT-223 (I) SOT-223 (II)
1 3 1 VIN Input Voltage
2, TAB 1 3 GND Ground
3 2, TAB 5, 6 OUT Output Voltage
L
- - 2, 4, 7, 8 NC No Connection
A
PIN CONFIGURATION
TI
TOP VIEW
EN
D
FI
N
O
C
BLOCK DIAGRAM
EK
IT
H
U
B
G
N
O
D
2 of 8 Datasheet AT1510BF-01
9. Nov. 2009
®
Product Specification
Applications:
• Stereo headsets and Headphones
• Wireless speaker
6\VWHP$UFKLWHFWXUH
Specifications:
Operating Frequency Band 2.4GHz ~ 2.48GHz unlicensed ISM band
Bluetooth Specification V4.0
Output Power Class Class 2
Operating Voltage 3.3V
Host Interface USB 1.1
Audio Interface PCM, I2S, Analogue and USB audio
Dimension 15mm (L) x 11(W) mm x 2.35mm (H)
Specifications are subject to change without prior notice
®
Product Specification
Pin Configurations
3,112 1$0( 7<3( )81&7,21 5(0$5.
1 GND GND Ground
2 GND GND Ground
3 AIO0 Bi-directional Analogue programmable input / output line
4 PIO12 Bi-directional Programmable Input/Output Line
Alternative function:
■ QSPI_FLASH_CS#: serial quad I/O flash chip select
■ I2C_WP: I²C bus memory write protect line
5 PIO14 Bi-directional Programmable Input/Output Line
Alternative functions:
■ UART_RX: UART data input
6 PIO11 Bi-directional Programmable Input/Output Line
Alternative function:
■ QSPI_IO[0]: serial quad I/O flash data bit 0
■ I2C_SDA: I²C serial data line
7 PIO17 Bi-directional Programmable Input/Output Line
Alternative functions:
■ UART_CTS: UART clear to send, active low
8 PIO10 Bi-directional Programmable Input/Output Line
Alternative function:
■ QSPI_FLASH_CLK: serial quad I/O flash clock
■ I2C_SCL: I²C serial clock line
9 PIO15 Bi-directional Programmable Input/Output Line
Alternative functions:
■ UART_TX: UART data output
10 PIO16 Bi-directional Programmable Input/Output Line
Alternative functions:
■ UART_RTS: UART request to send, active low
11 PIO13 Bi-directional Programmable Input/Output Line
Alternative function:
■ QSPI_IO[1]: serial quad I/O flash data bit 1
12 GND GND Ground
13 PIO2 Bi-directional Programmable Input/Output Line
Alternative functions:
■ SPI_MOSI: SPI data input
■ PCM1_IN: PCM1 synchronous data input
14 PIO5 Bi-directional Programmable Input/Output Line
Alternative functions:
■ SPI_CLK: SPI clock
■ PCM1_CLK: PCM1 synchronous data clock
15 PIO4 Bi-directional Programmable Input/Output Line
Alternative functions:
■ SPI_CS#: chip select for SPI, active low
■ PCM1_SYNC: PCM1 synchronous data sync
16 PIO3 Bi-directional Programmable Input/Output Line
Alternative functions:
■ SPI_MISO: SPI data output
■ PCM1_OUT: PCM1 synchronous data output
17 GND GND Ground
18 LED1 Bi-directional LED driver.
Alternative function: programmable output PIO[30].
19 LED0 Bi-directional LED driver.
Alternative function: programmable output PIO[29].
20 RST# Input with strong Reset if low. Pull low for minimum 5ms to cause a
pull-up reset.
21 SPI_PCM# Bidirectional with SPI/PCM select input:
weak ■ 0 = PCM/PIO interface
pull-down ■ 1 = SPI
22 VREGENABLE CMOS Input Regulator enable input
Can also be sensed as an input.
Regulator enable and multifunction button. A high input
(tolerant to VBAT) enables the on-chip regulators,
which can then be latched on internally and the button
used as a multifunction input
23 GND GND Ground
24 VBUS Power Input Charger input.
®
Product Specification
Typically connected to VBUS (USB supply) as Section
12 shows.
25 CHG_EXT External battery charger control.
External battery charger transistor base control when
using external charger boost. Otherwise leave
unconnected.
26 VBAT_SENSE Battery charger sense input.
Connect directly to the battery positive pin.
27 VBAT Power IN Battery positive terminal.
28 GND GND Ground
29 1V8_SMPS Power out Serial Peripheral Interface Clock
30 VDD_PADS Power IN Positive supply input for input/output ports
31 PIO9 Bi-directional Programmable Input/Output Line
Alternative functions:
■ UART_CTS: UART clear to send, active low
32 PIO0 Bi-directional Programmable Input/Output Line
Alternative functions:
■ UART_RX: UART data input
33 PIO6 Bi-directional Programmable Input/Output Line
34 PIO18 Bi-directional Programmable Input/Output Line
35 PIO19 Bi-directional Programmable Input/Output Line
36 GND GND Ground
37 USB_N Bi-directional USB data minus
38 USB_P Bi-directional USB data plus with selectable internal 1.5kΩ pull-up
resistor
39 PIO7 Bi-directional Programmable Input/Output Line
40 PIO1 Bi-directional Programmable Input/Output Line
Alternative functions:
■ UART_TX: UART data output
41 PIO8 Bi-directional Programmable Input/Output Line
Alternative functions:
■ UART_RTS: UART request to
send, active low
42 PIO21 Bi-directional Programmable Input/Output Line
43 PIO20 Bi-directional Programmable Input/Output Line
44 LED2 Bi-directional LED driver.
Alternative function: programmable output PIO[31]
45 GND GND Ground
46 MIC_BIAS Analogue out Microphone bias
47 MIC_RN Analogue in Microphone input negative, channel A
48 MIC_RP Analogue in Microphone input positive, channel A
49 MIC_LN Analogue in Microphone input negative, channel B
50 MIC_LP Analogue in Microphone input positive, channel B
51 AGND Analogue Ground connection for audio and audio driver.
52 SPK_RN Analogue out Speaker A output negative, right
53 SPK_RP Analogue out Speaker A output positive, right
54 SPK_LN Analogue out Speaker A output negative, left
55 SPK_LP Analogue out Speaker A output positive, left
56 GND GND Ground
57 RF_IN GND Bluetooth 50Ω transmitter output /receiver input
58 GND GND Ground
®
Product Specification
Data Sheet
600mA LOW DROPOUT LINEAR REGULATOR AP1117M
AP2317
LOW DROPOUT LINEAR REGULATOR AZ1117C
General Description Features
The AZ1117C is a low dropout three-terminal regula- · Current Limit: 1.0A (Typ.)
tor. · Output Noise from 10Hz to 10KHz: 0.003% of
VOUT
The AZ1117C has been optimized for low voltage
· PSRR at IOUT=300mA and f=120Hz: 70dB
where transient response and minimum input voltage
are critical. It provides current limit and thermal shut- · Output Voltage Accuracy: ±1% (Except 1.2V
down. Its circuit includes a trimmed bandgap reference version)
to assure output voltage accuracy to be within ±1%. · On-chip Thermal Shutdown
On-chip thermal shutdown provides protection against · Maximum Quiescent Current: IQMAX=6mA
a combination of high current and ambient temperature · Compatible with Low ESR Ceramic Capacitor
that would create excessive junction temperature.
· Operation Junction Temperature: -20 to 125oC
The AZ1117C is available in 1.2V, 1.5V, 1.8V, 2.5V,
3.3V, 5.0V fixed output voltage vesions and ADJ out- Applications
put voltage version. The fixed versions integrate the
adjust resistors. It is also available in an adjustable ver- · USB Device
sion which can set the output voltage with two external · Add-on Card
resistors. · DVD Player
· PC Motherboard
The AZ1117C is available in the industry-standard TO-
252-2 (1), TO-252-2 (2), TO-252-2 (3), TO-252-2 (4),
SOT-89 and SOT-223 power packages.
Data Sheet
600mA LOW DROPOUT LINEAR REGULATOR AP1117M
AP2317
LOW DROPOUT LINEAR REGULATOR AZ1117C
Pin Configuration
D Package
3 INPUT 3 INPUT
2 OUTPUT 2 OUTPUT
ADJ/GND 1 ADJ/GND
1
3 INPUT 3 INPUT
ADJ/GND 1 ADJ/GND
1
H Package R Package
(SOT-223) (SOT-89)
3 INPUT 3 INPUT
1 ADJ/GND 1 ADJ/GND
1. Description
The Atmel AT45DB321D is a 2.5V or 2.7V, serial interface, sequential access flash memory ideally suited for a wide variety of
digital voice-, image-, program code-, and data-storage applications. The AT45DB321D supports the Atmel RapidS serial
interface for applications requiring very high speed operations. The RapidS serial interface is SPI compatible for frequencies up
to 66MHz. The 34,603,008-bits of memory are organized as 8,192 pages of 512 bytes or 528 bytes each. In addition to the main
memory, the AT45DB321D also contains two SRAM buffers of 512/528 bytes each. These buffers allow the receiving of data
while a page in the main memory is being reprogrammed, as well as the writing of a continuous data stream. EEPROM
(electrically erasable and programmable read-only memory) emulation (bit or byte alterability) is easily handled with a self-
contained, three-step read-modify-write operation. Unlike conventional flash memories, which are accessed randomly with
multiple address lines and a parallel interface, Atmel DataFlash® devices use a RapidS serial interface to sequentially access its
data. The simple sequential access dramatically reduces active pin count, facilitates hardware layout, increases system
reliability, minimizes switching noise, and reduces package size. The device is optimized for use in many commercial and
industrial applications where high density, low pin count, low voltage and low power are essential.
To allow for simple, in-system reprogrammability, the AT45DB321D does not require high input voltages for programming. The
device operates from a single power supply, 2.7V to 3.6V, for both the program and read operations. The AT45DB321D is
enabled through the chip select pin (CS) and accessed via a three-wire interface consisting of the serial input (SI), serial output
(SO), and serial clock (SCK) lines.
All programming and erase cycles are self timed.
SI 1 8 SO
SCK SI 1 8 SO
2 7 GND
RESET 3 6 VCC
SCK 2 7 GND
CS 4 5 WP
RESET 3 6 VCC
CS 4 5 WP
1 2 3 4 5
RDY/BUSY 1 28 NC
RESET 2 27 NC
WP 3 26 NC
NC 4 25 NC
A NC 5 24 NC
NC NC NC NC
VCC 6 23 NC
B GND 7 22 NC
NC SCK GND VCC NC
NC 8 21 NC
C NC 9 20 NC
NC CS RDY/BSY WP NC
NC 10 19 NC
D CS 11 18 NC
NC SO SI RESET NC
SCK 12 17 NC
E SI 13 16 NC
NC NC NC NC NC
SO 14 15 NC
Atmel AT45DB321D 2
3597Q–DFLASH–6/11
Asserted
Symbol Name and Function State Type
CS Chip Select: Asserting the CS pin selects the device. When the CS pin is deasserted, the Low Input
device will be deselected and normally be placed in the standby mode (not deep power-
down mode), and the output pin (SO) will be in a high-impedance state. When the device
is deselected, data will not be accepted on the input pin (SI).
A high-to-low transition on the CS pin is required to start an operation, and a low-to-high
transition is required to end an operation. When ending an internally self-timed operation
such as a program or erase cycle, the device will not enter the standby mode until the
completion of the operation.
SCK Serial Clock: This pin is used to provide a clock to the device, and is used to control the – Input
flow of data to and from the device. Command, address, and input data present on the SI
pin are always latched on the rising edge of SCK, while output data on the SO pin are
always clocked out on the falling edge of SCK.
SI Serial Input: The SI pin is used to shift data into the device. The SI pin is used for all data – Input
input, including command and address sequences. Data on the SI pin are always latched
on the rising edge of SCK.
SO Serial Output: The SO pin is used to shift data out from the device. Data on the SO pin – Output
are always clocked out on the falling edge of SCK.
WP Write Protect: When the WP pin is asserted, all sectors specified for protection by the Low Input
sector protection register will be protected against program and erase operations,
regardless of whether the enable sector protection command has been issued or not. The
WP pin functions independently of the software controlled protection method. After the
WP pin goes low, the content of the sector protection register cannot be modified.
If a program or erase command is issued to the device while the WP pin is asserted, the
device will simply ignore the command and perform no operation. The device will return to
the idle state once the CS pin has been deasserted. The enable sector protection
command and sector lockdown command, however, will be recognized by the device
when the WP pin is asserted.
The WP pin is internally pulled high, and may be left floating if hardware controlled
protection will not be used. However, it is recommended that the WP pin also be
externally connected to VCC whenever possible.
RESET Reset: A low state on the reset pin (RESET) will terminate the operation in progress and Low Input
reset the internal state machine to an idle state. The device will remain in the reset
condition as long as a low level is present on the RESET pin. Normal operation can
resume once the RESET pin is brought back to a high level.
The device incorporates an internal power-on reset circuit, and so there are no restrictions
on the RESET pin during power-on sequences. If this pin and feature are not utilized, it is
recommended that the RESET pin be driven high externally.
RDY/BUSY Ready/Busy: This open drain output pin will be driven low when the device is busy in an – Output
internally self-timed operation. This pin, which is normally in a high state (through
an external pull-up resistor), will be pulled low during programming/erase operations,
compare operations, and page-to-buffer transfers.
The busy status indicates that the flash memory array and one of the buffers cannot be
accessed; read and write operations to the other buffer can still be performed.
VCC Device Power Supply: The VCC pin is used to supply the source voltage to the device. – Power
Operations at invalid VCC voltages may produce spurious results and should not be
attempted.
GND Ground: The ground reference for the power supply. GND should be connected to the – Ground
system ground.
Atmel AT45DB321D 3
3597Q–DFLASH–6/11
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Vdd Vdd 1 54 Vss Vss
DQ0 DQ0 2 53 DQ15 DQ7
VddQ VddQ 3 52 VssQ VssQ
NC DQ1 4 51 DQ14 NC
DQ1 DQ2 5 50 DQ13 DQ6
VssQ VssQ 6 49 VddQ VddQ
NC DQ3 7 48 DQ12 NC
DQ2 DQ4 8 47 DQ11 DQ5
VddQ VddQ 9 46 VssQ VssQ
NC DQ5 10 45 DQ10 NC
DQ3 DQ6 11 44 DQ9 DQ4
VssQ VssQ 12 43 VddQ VddQ
NC DQ7 13 42 DQ8 NC
Vdd Vdd 14 41 Vss Vss
NC DQML 15 40 NC NC
/WE /WE 16 39 DQMU DQM
/CAS /CAS 17 38 CLK CLK
/RAS /RAS 18 37 CKE CKE
/CS /CS 19 36 NC NC
BA0 BA0 20 35 A11 A11
BA1 BA1 21 34 A9 A9
A10(AP) A10(AP) 22 33 A8 A8
A0 A0 23 32 A7 A7
A1 A1 24 31 A6 A6
A2 A2 25 30 A5 A5
A3 A3 26 29 A4 A4
Vdd Vdd 27 28 Vss Vss
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Clock: CLK is driven by the system clock. All SDRAM input signals are sampled on the positive
CLK Input edge of CLK. CLK also increments the internal burst counter and controls the output registers.
Clock Enable: CKE activates (HIGH) and deactivates (LOW) the CLK signal. Deactivating the
clock provides PRECHARGE POWER-DOWN and SELF REFRESH operation (all banks idle),
ACTIVE POWER-DOWN (row active in any bank), or CLOCK SUSPEND operation (burst /
CKE Input access in progress). CKE is synchronous except after the device enters self refresh mode, where
CKE becomes asynchronous until after exiting the same mode. The input buffers, including CLK,
are disabled during self refresh mode, providing low standby power. CKE may be tied HIGH.
Chip Select: /CS enables (registered LOW) and disables (registered HIGH) the command
decoder. All commands are masked when /CS is registered HIGH. /CS provides for external
/CS Input bank selection on systems with multiple banks. /CS is considered part of the command code.
/CAS, Command Inputs: /CAS, /RAS, and /WE (along with /CS) define the command being entered.
/RAS, Input
/WE
Input / Output Mask: DQM is sampled HIGH and is an input mask signal for write accesses and
an output disable signal for read accesses. Input data is masked during a WRITE cycle. The
DQM, output buffers are placed in a High-Z state (two-clock latency) when during a READ cycle. DQM
DQML, Input corresponds to DQ0–DQ7 (A3V28S30FTP). DQML corresponds to DQ0–DQ7, DQMU
DQMU, corresponds to DQ8–DQ15 (A3V28S40FTP).
Bank Address Input(s): BA0 and BA1 define to which bank the ACTIVE, READ, WRITE or
BA0, BA1 Input PRECHARGE command is being applied.
A0-11 specify the Row / Column Address in conjunction with BA0,1. The Row Address is
specified by A0-11. The Column Address is specified by A0-9(x8) and A0-8(x16). A10 is also
used to indicate precharge option. When A10 is high at a read / write command, an auto
A0–A11 Input precharge is performed. When A10 is high at a precharge command, all banks are precharged.
Data Output Power: Provide isolated power to output buffers for improved noise immunity.
VddQ Supply
Data Output Ground: Provide isolated ground to output buffers for improved noise immunity.
VssQ Supply
Power for the input buffers and core logic.
Vdd Supply
Ground for the input buffers and core logic.
Vss Supply
SEMICONDUCTOR 2N7002K
N Channel MOSFET
TECHNICAL DATA ESD Protected 2000V
FEATURES E
ESD Protected 2000V. L B L
DIM MILLIMETERS
High density cell design for low RDS(ON). A _ 0.20
2.93+
Voltage controlled small signal switch. B 1.30+0.20/-0.15
C 1.30 MAX
D
2
Rugged and reliable. 3 D 0.45+0.15/-0.05
G
E 2.40+0.30/-0.20
High saturation current capablity.
H
1
G 1.90
H 0.95
J 0.13+0.10/-0.05
K 0.00 ~ 0.10
P P L 0.55
M 0.20 MIN
MAXIMUM RATING (Ta=25 ) N 1.00+0.20/-0.10
N
C
J
P 7
CHARACTERISTIC SYMBOL RATING UNIT M
K
Drain-Source Voltage VDSS 60 V
1. SOURCE
Gate-Source Voltage VGSS 20 V 2. GATE
EQUIVALENT CIRCUIT
D
Marking
Lot No.
G Type Name
WC
µPA672T
N-CHANNEL MOS FET ARRAY
FOR SWITCHING
FEATURES
6 5 4
1.25 ±0.1
2.1 ±0.1
• Two MOS FET circuits in package the same size as
SC-70 0 to 0.1
0.7
0.65 0.65
1.3 0.9 ±0.1
2.0 ±0.2
PIN CONNECTION
6 5 4
1. Source 1 (S1)
2. Gate 1 (G1)
3. Drain 2 (D2)
4. Source 2 (S2)
5. Gate 2 (G2)
6. Drain 1 (D1)
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1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
A PE3 PE2 PE1 PE0 PB8 PB5 PG14 PG13 PB4 PB3 PD7 PC12 PA15 PA14 PA13
B PE4 PE5 PE6 PB9 PB7 PB6 PG15 PG12 PG11 PG10 PD6 PD0 PC11 PC10 PA12
C VBAT PI7 PI6 PI5 VDD_3 RFU VDD_11 VDD_10 VDD_15 PG9 PD5 PD1 PI3 PI2 PA11
PC13- PI8-
D PI9 PI4 VSS BOOT0 VSS_11 VSS_10 VSS_15 PD4 PD3 PD2 PH15 PI1 PA10
TAMP1 TAMP2
PC14-
E PF0 PI10 PI11 PH13 PH14 PI0 PA9
OSC32_IN
PC15-
F VSS_13 VDD_13 PH2 VSS VSS VSS VSS VSS VSS_2 VCAP2 PC9 PA8
OSC32_OUT
PH0-
G VSS_5 VDD_5 PH3 VSS VSS VSS VSS VSS VSS_9 VDD_2 PC8 PC7
OSC_IN
PH1-
H PF2 PF1 PH4 VSS VSS VSS VSS VSS VSS_14 VDD_9 PG8 PC6
OSC_OUT
J NRST PF3 PF4 PH5 VSS VSS VSS VSS VSS VDD_14 VDD_8 PG7 PG6
K PF7 PF6 PF5 VDD_4 VSS VSS VSS VSS VSS PH12 PG5 PG4 PG3
M VSSA PC0 PC1 PC2 PC3 PB2 PG1 VSS_6 VSS_7 VCAP1 PH6 PH8 PH9 PD14 PD13
PA0-
N VREF- PA1 PA4 PC4 PF13 PG0 VDD_6 VDD_7 VDD_1 PE13 PH7 PD12 PD11 PD10
WKUP
P VREF+ PA2 PA6 PA5 PC5 PF12 PF15 PE8 PE9 PE11 PE14 PB12 PB13 PD9 PD8
R VDDA PA3 PA7 PB1 PB0 PF11 PF14 PE7 PE10 PE12 PE15 PB10 PB11 PB14 PB15
AIB
I / O Level(2)
WLCSP64+2
Main
Type(1)
UFBGA176
Other
LQFP100
LQFP144
LQFP176
LQFP64
TRACECLK/ FSMC_A23 /
- - 1 1 1 A2 PE2 I/O FT PE2
ETH_MII_TXD3
- - 2 2 2 A1 PE3 I/O FT PE3 TRACED0/FSMC_A19
TRACED1/FSMC_A20 /
- - 3 3 3 B1 PE4 I/O FT PE4
DCMI_D4
TRACED2 / FSMC_A21 /
- - 4 4 4 B2 PE5 I/O FT PE5
TIM9_CH1 / DCMI_D6
TRACED3 / FSMC_A22 /
- - 5 5 5 B3 PE6 I/O FT PE6
TIM9_CH2 / DCMI_D7
1 A9 6 6 6 C1 VBAT S VBAT
- - - - 7 D2 PI8(4) I/O FT PI8(5) RTC_AF2
2 B8 7 7 8 D1 PC13(4) I/O FT PC13(5) RTC_AF1
(4)-OSC32_IN(6)
3 B9 8 8 9 E1 PC14 I/O FT PC14(5) OSC32_IN
PC15(4)-
4 C9 9 9 10 F1 I/O FT PC15(5) OSC32_OUT
OSC32_OUT(6)
- - - - 11 D3 PI9 I/O FT PI9 CAN1_RX
- - - - 12 E3 PI10 I/O FT PI10 ETH_MII_RX_ER
- - - - 13 E4 PI11 I/O FT PI11 OTG_HS_ULPI_DIR
- - - - 14 F2 VSS_13 S VSS_13
- - - - 15 F3 VDD_13 S VDD_13
- - - 10 16 E2 PF0 I/O FT PF0 FSMC_A0 / I2C2_SDA
- - - 11 17 H3 PF1 I/O FT PF1 FSMC_A1 / I2C2_SCL
- - - 12 18 H2 PF2 I/O FT PF2 FSMC_A2 / I2C2_SMBA
- - - 13 19 J2 PF3(6) I/O FT PF3 FSMC_A3 ADC3_IN9
- - - 14 20 J3 PF4(6) I/O FT PF4 FSMC_A4 ADC3_IN14
- - - 15 21 K3 PF5(6) I/O FT PF5 FSMC_A5 ADC3_IN15
- H9 10 16 22 G2 VSS_5 S VSS_5
- - 11 17 23 G3 VDD_5 S VDD_5
TIM10_CH1 /
- - - 18 24 K2 PF6(6) I/O FT PF6 ADC3_IN4
FSMC_NIORD
- - - 19 25 K1 PF7(6) I/O FT PF7 TIM11_CH1/FSMC_NREG ADC3_IN5
TIM13_CH1 /
- - - 20 26 L3 PF8(6) I/O FT PF8 ADC3_IN6
FSMC_NIOWR
- - - 21 27 L2 PF9(6) I/O FT PF9 TIM14_CH1 / FSMC_CD ADC3_IN7
I / O Level(2)
WLCSP64+2
Main
Type(1)
UFBGA176
Other
LQFP100
LQFP144
LQFP176
LQFP64
I / O Level(2)
WLCSP64+2
Main
Type(1)
UFBGA176
Other
LQFP100
LQFP144
LQFP176
LQFP64
USART2_RX/TIM5_CH4 /
TIM9_CH2 / TIM2_CH4 /
17 G7 26 37 47 R2 PA3(6) I/O FT PA3 ADC123_IN3
OTG_HS_ULPI_D0 /
ETH_MII_COL
18 F1 27 38 48 - VSS_4 S VSS_4
H7 L4 REGOFF I/O REGOFF
19 E1 28 39 49 K4 VDD_4 S VDD_4
SPI1_NSS / SPI3_NSS /
USART2_CK / ADC12_IN4
20 J8 29 40 50 N4 PA4(6) I/O PA4
DCMI_HSYNC / /DAC1_OUT
OTG_HS_SOF/ I2S3_WS
SPI1_SCK/
(6) OTG_HS_ULPI_CK / / ADC12_IN5
21 H6 30 41 51 P4 PA5 I/O PA5
TIM2_CH1_ETR/ /DAC2_OUT
TIM8_CHIN
SPI1_MISO /
(6) TIM8_BKIN/TIM13_CH1 /
22 H5 31 42 52 P3 PA6 I/O FT PA6 ADC12_IN6
DCMI_PIXCLK / TIM3_CH1
/ TIM1_BKIN
SPI1_MOSI/ TIM8_CH1N /
TIM14_CH1
TIM3_CH2/
23 J7 32 43 53 R3 PA7(6) I/O FT PA7 ADC12_IN7
ETH_MII_RX_DV /
TIM1_CH1N /
RMII_CRS_DV
ETH_RMII_RX_D0 /
24 H4 33 44 54 N5 PC4(6) I/O FT PC4 ADC12_IN14
ETH_MII_RX_D0
ETH_RMII_RX_D1 /
25 G3 34 45 55 P5 PC5(6) I/O FT PC5 ADC12_IN15
ETH_MII_RX_D1
TIM3_CH3 / TIM8_CH2N/
OTG_HS_ULPI_D1/
26 J6 35 46 56 R5 PB0(6) I/O FT PB0 ADC12_IN8
ETH_MII_RXD2 /
TIM1_CH2N
TIM3_CH4 / TIM8_CH3N/
OTG_HS_ULPI_D2/
27 J5 36 47 57 R4 PB1(6) I/O FT PB1 ETH_MII_RXD3 / ADC12_IN9
OTG_HS_INTN /
TIM1_CH3N
28 J4 37 48 58 M6 PB2 I/O FT PB2-BOOT1
- - - 49 59 R6 PF11 I/O FT PF11 DCMI_12
- - - 50 60 P6 PF12 I/O FT PF12 FSMC_A6
I / O Level(2)
WLCSP64+2
Main
Type(1)
UFBGA176
Other
LQFP100
LQFP144
LQFP176
LQFP64
- - - 51 61 M8 VSS_6 S VSS_6
- - - 52 62 N8 VDD_6 S VDD_6
- - - 53 63 N6 PF13 I/O FT PF13 FSMC_A7
- - - 54 64 R7 PF14 I/O FT PF14 FSMC_A8
- - - 55 65 P7 PF15 I/O FT PF15 FSMC_A9
- - - 56 66 N7 PG0 I/O FT PG0 FSMC_A10
- - - 57 67 M7 PG1 I/O FT PG1 FSMC_A11
- - 38 58 68 R8 PE7 I/O FT PE7 FSMC_D4/TIM1_ETR
- - 39 59 69 P8 PE8 I/O FT PE8 FSMC_D5/TIM1_CH1N
- - 40 60 70 P9 PE9 I/O FT PE9 FSMC_D6/TIM1_CH1
- - - 61 71 M9 VSS_7 S VSS_7
- - - 62 72 N9 VDD_7 S VDD_7
- - 41 63 73 R9 PE10 I/O FT PE10 FSMC_D7/TIM1_CH2N
- - 42 64 74 P10 PE11 I/O FT PE11 FSMC_D8/TIM1_CH2
- - 43 65 75 R10 PE12 I/O FT PE12 FSMC_D9/TIM1_CH3N
- - 44 66 76 N11 PE13 I/O FT PE13 FSMC_D10/TIM1_CH3
- - 45 67 77 P11 PE14 I/O FT PE14 FSMC_D11/TIM1_CH4
- - 46 68 78 R11 PE15 I/O FT PE15 FSMC_D12/TIM1_BKIN
SPI2_SCK/ I2S2_CK/
I2C2_SCL / USART3_TX /
29 H3 47 69 79 R12 PB10 I/O FT PB10 OTG_HS_ULPI_D3 /
ETH_MII_RX_ER /
OTG_HS_SCL / TIM2_CH3
I2C2_SDA/USART3_RX/
OTG_HS_ULPI_D4 /
30 J2 48 70 80 R13 PB11 I/O FT PB11 ETH_RMII_TX_EN/
ETH_MII_TX_EN /
OTG_HS_SDA / TIM2_CH4
31 J3 49 71 81 M10 VCAP_1 S VCAP_1
32 - 50 72 82 N10 VDD_1 S VDD_1
I2C2_SMBA / TIM12_CH1 /
- - - - 83 M11 PH6 I/O FT PH6
ETH_MII_RXD2
I2C3_SCL /
- - - - 84 N12 PH7 I/O FT PH7
ETH_MII_RXD3
- - - - 85 M12 PH8 I/O FT PH8 I2C3_SDA / DCMI_HSYNC
I / O Level(2)
WLCSP64+2
Main
Type(1)
UFBGA176
Other
LQFP100
LQFP144
LQFP176
LQFP64
I2C3_SMBA / TIM12_CH2/
- - - - 86 M13 PH9 I/O FT PH9
DCMI_D0
TIM5_CH1_ETR /
- - - - 87 L13 PH10 I/O FT PH10
DCMI_D1
- - - - 88 L12 PH11 I/O FT PH11 TIM5_CH2 / DCMI_D2
- - - - 89 K12 PH12 I/O FT PH12 TIM5_CH3 / DCMI_D3
- - - - 90 H12 VSS_14 S VSS_14
- - - - 91 J12 VDD_14 S VDD_14
SPI2_NSS/I2S2_WS/
I2C2_SMBA/
USART3_CK/ TIM1_BKIN /
CAN2_RX /
33 J1 51 73 92 P12 PB12 I/O FT PB12
OTG_HS_ULPI_D5/
ETH_RMII_TXD0 /
ETH_MII_TXD0/
OTG_HS_ID
SPI2_SCK / I2S2_CK /
USART3_CTS/
TIM1_CH1N /CAN2_TX / OTG_HS_
34 H2 52 74 93 P13 PB13 I/O FT PB13
OTG_HS_ULPI_D6 / VBUS
ETH_RMII_TXD1 /
ETH_MII_TXD1
SPI2_MISO/ TIM1_CH2N /
TIM12_CH1 / OTG_HS_DM
35 H1 53 75 94 R14 PB14 I/O FT PB14
USART3_RTS/
TIM8_CH2N
SPI2_MOSI / I2S2_SD /
TIM1_CH3N / TIM8_CH3N
36 G1 54 76 95 R15 PB15 I/O FT PB15
/ TIM12_CH2 /
OTG_HS_DP
- - 55 77 96 P15 PD8 I/O FT PD8 FSMC_D13 / USART3_TX
- - 56 78 97 P14 PD9 I/O FT PD9 FSMC_D14 / USART3_RX
- - 57 79 98 N15 PD10 I/O FT PD10 FSMC_D15 / USART3_CK
- - 58 80 99 N14 PD11 I/O FT PD11 FSMC_A16/USART3_CTS
FSMC_A17/TIM4_CH1 /
- - 59 81 100 N13 PD12 I/O FT PD12
USART3_RTS
- - 60 82 101 M15 PD13 I/O FT PD13 FSMC_A18/TIM4_CH2
- - - 83 102 - VSS_8 S VSS_8
- - - 84 103 J13 VDD_8 S VDD_8
I / O Level(2)
WLCSP64+2
Main
Type(1)
UFBGA176
Other
LQFP100
LQFP144
LQFP176
LQFP64
I / O Level(2)
WLCSP64+2
Main
Type(1)
UFBGA176
Other
LQFP100
LQFP144
LQFP176
LQFP64
USART1_RTS / CAN1_TX/
45 C1 71 104 123 B15 PA12 I/O FT PA12
TIM1_ETR/ OTG_FS_DP
JTMS-
46 B2 72 105 124 A15 PA13 I/O FT JTMS-SWDIO
SWDIO
47 C2 73 106 125 F13 VCAP_2 S VCAP_2
- B1 74 107 126 F12 VSS_2 S VSS_2
48 A8 75 108 127 G13 VDD_2 S VDD_2
- - - - 128 E12 PH13 I/O FT PH13 TIM8_CH1N / CAN1_TX
- - - - 129 E13 PH14 I/O FT PH14 TIM8_CH2N / DCMI_D4
- - - - 130 D13 PH15 I/O FT PH15 TIM8_CH3N / DCMI_D11
TIM5_CH4 / SPI2_NSS /
- - - - 131 E14 PI0 I/O FT PI0
I2S2_WS / DCMI_D13
SPI2_SCK / I2S2_CK /
- - - - 132 D14 PI1 I/O FT PI1
DCMI_D8
TIM8_CH4 /SPI2_MISO /
- - - - 133 C14 PI2 I/O FT PI2
DCMI_D9
TIM8_ETR / SPI2_MOSI /
- - - - 134 C13 PI3 I/O FT PI3
I2S2_SD / DCMI_D10
- - - - 135 D9 VSS_15 S VSS_15
- - - - 136 C9 VDD_15 S VDD_15
JTCK-
49 A1 76 109 137 A14 PA14 I/O FT JTCK-SWCLK
SWCLK
JTDI/ SPI3_NSS/
50 A2 77 110 138 A13 I/O FT JTDI I2S3_WS/TIM2_CH1_ETR
/ SPI1_NSS
SPI3_SCK / I2S3_CK /
51 B3 78 111 139 B14 PC10 I/O FT PC10 UART4_TX / SDIO_D2 /
DCMI_D8 / USART3_TX
UART4_RX/ SPI3_MISO /
52 C3 79 112 140 B13 PC11 I/O FT PC11 SDIO_D3 /
DCMI_D4/USART3_RX
UART5_TX/SDIO_CK /
53 A3 80 113 141 A12 PC12 I/O FT PC12 DCMI_D9 / SPI3_MOSI /
I2S3_SD / USART3_CK
- - 81 114 142 B12 PD0 I/O FT PD0 FSMC_D2/CAN1_RX
- - 82 115 143 C12 PD1 I/O FT PD1 FSMC_D3 / CAN1_TX
I / O Level(2)
WLCSP64+2
Main
Type(1)
UFBGA176
Other
LQFP100
LQFP144
LQFP176
LQFP64
TIM3_ETR/UART5_RX
54 C7 83 116 144 D12 PD2 I/O FT PD2
SDIO_CMD / DCMI_D11
- - 84 117 145 D11 PD3 I/O FT PD3 FSMC_CLK/USART2_CTS
- - 85 118 146 D10 PD4 I/O FT PD4 FSMC_NOE/USART2_RTS
- - 86 119 147 C11 PD5 I/O FT PD5 FSMC_NWE/USART2_TX
- - - 120 148 D8 VSS_10 S VSS_10
- - - 121 149 C8 VDD_10 S VDD_10
FSMC_NWAIT/USART2_R
- - 87 122 150 B11 PD6 I/O FT PD6
X
USART2_CK/FSMC_NE1/F
- - 88 123 151 A11 PD7 I/O FT PD7
SMC_NCE2
USART6_RX /
- - - 124 152 C10 PG9 I/O FT PG9
FSMC_NE2/FSMC_NCE3
FSMC_NCE4_1/
- - - 125 153 B10 PG10 I/O FT PG10
FSMC_NE3
FSMC_NCE4_2 /
- - - 126 154 B9 PG11 I/O FT PG11
ETH_MII_TX_EN
FSMC_NE4 /
- - - 127 155 B8 PG12 I/O FT PG12
USART6_RTS
FSMC_A24 /
USART6_CTS
- - - 128 156 A8 PG13 I/O FT PG13
/ETH_MII_TXD0/ETH_RMII
_TXD0
FSMC_A25 / USART6_TX
- - - 129 157 A7 PG14 I/O FT PG14 /ETH_MII_TXD1/ETH_RMII
_TXD1
- - - 130 158 D7 VSS_11 S VSS_11
- - - 131 159 C7 VDD_11 S VDD_11
- - - 132 160 B7 PG15 I/O FT PG15 USART6_CTS / DCMI_D13
JTDO/ TRACESWO/
JTDO/
55 A4 89 133 161 A10 PB3 I/O FT SPI3_SCK / I2S3_CK /
TRACESWO
TIM2_CH2 / SPI1_SCK
NJTRST/ SPI3_MISO /
56 B4 90 134 162 A9 PB4 I/O FT NJTRST
TIM3_CH1 / SPI1_MISO
I / O Level(2)
WLCSP64+2
Main
Type(1)
UFBGA176
Other
LQFP100
LQFP144
LQFP176
LQFP64
I2C1_SMBA/ CAN2_RX /
OTG_HS_ULPI_D7 /
57 A5 91 135 163 A6 PB5 I/O FT PB5 ETH_PPS_OUT/TIM3_CH2
/ SPI1_MOSI/ SPI3_MOSI /
DCMI_D10 / I2S3_SD
I2C1_SCL/ TIM4_CH1 /
58 B5 92 136 164 B6 PB6 I/O FT PB6 CAN2_TX /OTG_FS_INTN
/ DCMI_D5/USART1_TX
I2C1_SDA / FSMC_NL(8) /
59 A6 93 137 165 B5 PB7 I/O FT PB7 DCMI_VSYNC /
USART1_RX/ TIM4_CH2
60 B6 94 138 166 D6 BOOT0 I BOOT0 VPP
TIM4_CH3/SDIO_D4/
TIM10_CH1 / DCMI_D6 /
61 B7 95 139 167 A5 PB8 I/O FT PB8 OTG_FS_SCL/
ETH_MII_TXD3 /
I2C1_SCL/ CAN1_RX
SPI2_NSS/ I2S2_WS/
TIM4_CH4/ TIM11_CH1/
62 A7 96 140 168 B4 PB9 I/O FT PB9 OTG_FS_SDA/ SDIO_D5 /
DCMI_D7 / I2C1_SDA /
CAN1_TX
TIM4_ETR / FSMC_NBL0 /
- - 97 141 169 A4 PE0 I/O FT PE0
DCMI_D2
- - 98 142 170 A3 PE1 I/O FT PE1 FSMC_NBL1 / DCMI_D3
- D5 VSS S VSS
63 D8 - - - - VSS_3 S VSS_3
(9)
- - 99 143 171 C6 RFU
64 D9 100 144 172 C5 VDD_3 S VDD_3
- - - - 173 D4 PI4 I/O FT PI4 TIM8_BKIN / DCMI_D5
- - - - 174 C4 PI5 I/O FT PI5 TIM8_CH1 / DCMI_VSYNC
- - - - 175 C3 PI6 I/O FT PI6 TIM8_CH2 / DCMI_D6
- - - - 176 C2 PI7 I/O FT PI7 TIM8_CH3 / DCMI_D7
- C8 - - - - IRROFF I/O IRROFF
1. I = input, O = output, S = supply, HiZ = high impedance.
2. FT = 5 V tolerant.
3. Function availability depends on the chosen device.
Pin Diagram
Pin diagram is subject to change.
Figure 2 shows the pin assignments of the SiI957n port processor. The Target Pin Descriptions section describing the pin
functions begins on page 16. The package is a 20 mm x 20 mm x 0.4 mm 176-pin TQFP with an ePad, which must be
connected to ground.
SD1_IN/SD1_OUT/SPDIF1_IN/SPDIF1_OUT
SCK1_IN/SCK1_OUT
SD0_IN/SPDIFO_IN
WS1_IN/WS1_OUT
TDVDD12
TDVDD12
TPVDD12
TPVDD12
IOVCC33
CVCC12
CVCC12
al a r tia ge
TOXC+
TOX2+
TOX1+
TOX0+
T1XC+
TOXC-
T1X2+
T1X1+
T1X0+
TOX2-
TOX1-
TOX0-
T1XC-
T1X2-
T1X1-
T1X0-
ARC1
ARC0
IDCK
D13
D12
D11
D10
D9
D8
D7
D6
D5
D4
D3
D2
D1
D0
176 175 174 173 172 171 170 169 168 167 166 165 164 163 162 161 160 159 158 157 156 155 154 153 152 151 150 149 148 147 146 145 144 143 142 141 140 139 138 137 136 135 134 133 96
rn An fo en a 131 WS0_IN/GPIO11
l
D16 3 130 SPDIF0_OUT/DL2
id Im
D17 4 129 MUTEOUT/GPIO9
D18 5 128 SD0_3/DR2/GPIO8
D19 6 127 SD0_2/DL1/GPIO7
y
DE 7 126 SD0_1/DR1/GPIO6
VSYNC 8 125 MCLK
nl
HSYNC 9 124 SD0_0/DL0
n
O
R0X0+ 13 120 SDI/GPIO5
C lic
R0X2- 16
se 117 SS/GPIO2
R0X2+ 17 116 CVCC12
AVDD12 18 115 XTALGND
i
R2X2+ 35 98 DSCL5
AVDD12 36 97 DSDA5
CVCC12 37 96 RSVDL
AVDD33 38 95 R4PWR5V
R3XC- 39 94 CBUS_HPD4
R3XC+ 40 93 DSCL4
R3X0- 41 92 DSDA4
R3X0+ 42 91 R3PWR5V
R3X1- 43 90 CBUS_HPD3
R3X1+ 44 89 DSCL3
45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88
R3X2-
R3X2+
R4XC+
R4X0-
R4X0+
R4X1-
R4X1+
R4X2-
R4X2+
AVDD12
AVDD33
R5XC-
R5XC+
R5X0-
R5X0+
R5X1-
R5X1+
R5X2-
R5X2+
CVCC12
CSCL
CSDA
INT
RESET#
TPWR_CI2CA
CEC_A1
CEC_A0/WAKEUP
DSDA6(VGA)
DSCL6(VGA)
LPSVCC33
DSDA0
DSCL0
CBUS_HPD0
R0PWR5V
DSDA1
DSCL1
CBUS_HPD1
R1PWR5V
DSDA2
DSCL2
CBUS_HPD2
R2PWR5V
DSDA3
R4XC-
DEVICE INFORMATION
tenatative
NJM8080
■ FEATURES
● Operating Voltage ±2V~±18V
● Low Input Noise Voltage 0.8µVrms typ. (RIAA)
● Wide GBW 15MHz typ.
● Low Distortion 0.0005% typ.
● Slew Rate 5V/µs typ.
● Bipolar Technology
● Package Outline SOP8
■ PIN CONFIGURATION
Top View
PIN FUNCTION
1 8 1.A OUTPUT
2.A -INPUT
2 A 7 3.A +INPUT
4.V-
3 B 6 5.B +INPUT
6.B -INPUT
4 5 7.B OUTPUT
+
8.V
SOP8 Package
-INPUT
+INPUT OUTPUT
V-
Ver.2012-09-19 -1-
MX25L8006E
MX25L1606E
PIN CONFIGURATIONS
16-PIN SOP (300mil) for MX25L1606E only 8-PIN SOP (200mil, 150mil)
HOLD# 1 16 SCLK
VCC 2 15 SI/SIO0
NC 3 14 NC CS# 1 8 VCC
NC 4 13 NC SO/SIO1 2 7 HOLD#
NC 5 12 NC WP# 3 6 SCLK
NC 6 11 NC GND 4 5 SI/SIO0
CS# 7 10 GND
SO/SIO1 8 9 WP#
PIN DESCRIPTION
SYMBOL DESCRIPTION
CS#
Chip Select
Serial Data Input (for 1 x I/O)/ Serial Data
SI/SIO0
Input & Output (for Dual Output mode)
Serial Data Output (for 1 x I/O)/ Serial Data
SO/SIO1
Output (for Dual Output mode)
SCLK Clock Input
WP# Write protection
Hold, to pause the device without
HOLD#
deselecting the device
VCC + 3.3V Power Supply
GND Ground
Feature summary
■ Two-Wire I2C serial interface
Supports 400kHz Protocol
■ Single supply voltage:
– 2.5 to 5.5V for M24Cxx-W
– 1.8 to 5.5V for M24Cxx-R
– 1.7 to 5.5V for M25Cxx-F PDIP8 (BN)
■ Write Control Input
■ Byte and Page Write (up to 32 Bytes)
■ Random And Sequential Read modes
■ Self-Timed programming cycle
■ Automatic address incrementing
SO8 (MN)
■ Enhanced ESD/Latch-Up Protection 150 mil width
■ More than 1 Million Write cycles
■ More than 40-year data retention
TSSOP8 (DW)
169 mil width
UFDFPN8 (MB)
2x3mm² (MLP)
List of figures
5/34
1 Summary description
3
M24C64-W
E0-E2 SDA
M24C64-R
M24C64-F
SCL M24C32-W
M24C32-R
WC M24C32-F
VSS
AI01844c
I2C uses a two-wire serial interface, comprising a bi-directional data line and a clock line.
The devices carry a built-in 4-bit Device Type Identifier code (1010) in accordance with the
I2C bus definition.
The device behaves as a slave in the I2C protocol, with all memory operations synchronized
by the serial clock. Read and Write operations are initiated by a Start condition, generated
by the bus master. The Start condition is followed by a Device Select Code and Read/Write
bit (RW) (as described in Table 2), terminated by an acknowledge bit.
When writing data to the memory, the device inserts an acknowledge bit during the 9th bit
time, following the bus master’s 8-bit transmission. When data is read by the bus master, the
bus master acknowledges the receipt of the data byte in the same way. Data transfers are
terminated by a Stop condition after an Ack for Write, and after a NoAck for Read.
6/34
E0 1 8 VCC
E1 2 7 WC
E2 3 6 SCL
VSS 4 5 SDA
AI01845d
1. See Package mechanical section for package dimensions, and how to identify pin-1.
7/34
2 Signal description
M24xxx M24xxx
Ei Ei
VSS VSS
Ai12806
8/34
2.3.3 Power-down
At Power-down (continuous decrease of VCC), as soon as VCC drops from the normal
operating voltage to below the Power On Reset threshold voltage, the device stops
responding to any instruction sent to it.
During Power-down, the device must be deselected and in the Standby Power mode (that is
there should be no internal Write cycle in progress).
Figure 4. Maximum RP value versus bus parasitic capacitance (C) for an I2C bus
VCC
20
Maximum RP value (kΩ)
16
RP RP
12
SDA
8 MASTER C
fc = 100kHz SCL
4
fc = 400kHz C
0
10 100 1000
C (pF)
AI01665b
9/34
SCL
SDA
SDA SDA
START Input Change STOP
Condition Condition
SCL 1 2 3 7 8 9
START
Condition
SCL 1 2 3 7 8 9
STOP
Condition
AI00792B
b7 b6 b5 b4 b3 b2 b1 b0
Device Select Code 1 0 1 0 E2 E1 E0 RW
1. The most significant bit, b7, is sent first.
2. E0, E1 and E2 are compared against the respective external pins on the memory device.
10/34
z JEDEC standard 3.3V power supply The M12L16161A is 16,777,216 bits synchronous high data
z LVTTL compatible with multiplexed address rate Dynamic RAM organized as 2 x 524,288 words by 16 bits,
z Dual banks operation fabricated with high performance CMOS technology.
z MRS cycle with address key programs Synchronous design allows precise cycle control with the use
- CAS Latency (2 & 3 ) of system clock I/O transactions are possible on every clock
- Burst Length (1, 2, 4, 8 & full page) cycle. Range of operating frequencies, programmable burst
- Burst Type (Sequential & Interleave) length and programmable latencies allow the same device to
z All inputs are sampled at the positive going edge of the be useful for a variety of high bandwidth, high performance
system clock memory system applications.
z Burst Read Single-bit Write operation
z DQM for masking ORDERING INFORMATION
z Auto & self refresh
z 32ms refresh period (2K cycle)
Product ID Max Freq. Package Comments
M12L16161A-5TG2Q 200MHz TSOP(II) Pb-free
M12L16161A-7TG2Q 143MHz TSOP(II) Pb-free
VDD 1 50 VSS
DQ0 2 49 DQ15
DQ1 3 48 DQ14
VSSQ 4 47 VSSQ
DQ2 5 46 DQ13
DQ3 6 45 DQ12
VDDQ 7 44 VDDQ
DQ4 8 43 DQ11
DQ5 9 42 DQ10
VSSQ 10 41 VSSQ
DQ6 11 40 DQ9
DQ7 12 39 DQ8
VDDQ 13 38 VDDQ
LDQM 14 37 N.C/RFU
WE 15 36 UDQM
CAS 16 35 CLK
RAS 17 34 CKE
CS 18 33 N.C
BA 19 32 A9
A10/AP 20 31 A8
A0 21 30 A7
A1 22 29 A6
A2 23 28 A5
A3 24 27 A4 50PIN TSOP(II)
VDD 25 26 VSS (400mil x 825mil)
(0.8 mm PIN PITCH)
SPDIF & Analog Audio I2S I/F To HDMI / Milan/BT By Upgrade UART UART & GPIO
4 Line I2S
1 Line I2S
ation
ol
HDMI Partt
Milan Contro
Communica
DAI 1 DA0 2
Memory
Flash
udio
SPI
T Analog Au
Milan Analog
g CS49834
Audio DSP
DAO 1
16M SD
USB UART GPIO
DRAM
BT
M
SPI
DAI 2
DSP Controls
IR In X 1 Main MCU
4 Line I2S
STM32F205ZFT6
GPIO
Ti
Trigger outt
I2S Out
GPIO
SPI
Optical In
SPDIF Input
X1 CS42528
Con
Con
SMP
Con
Volu
Con
Tun
ETC
VFD
ner
C
C d
Codec
ntrol
ntrol
ntrol
ntrol
ume
PS
Coaxial
SD
IN
In x 1
8CH Analog
Main MCU SMPS
2 16
2x16
8CH Analog
Main MCU
Main MCU
Dot
Matrix
SW Pre out 1
Analog Input & Mux
Analog In x 2 NJU72340
Analogg Output
Tuner Module
Main MCU
( / )
(FM/AM)
TMDS
HDMI/MHL 1
HDMI Out
O t
SII9573
TMDS
HDMI
2/3/4/5
HDMI
Repeater
Flash Me
or
SSPI
mory fo
(OSD)
BT Module
Aud
BT
dio out
BlueTooth BM840 AZ4580
GPIO& I2C
Antenna I2C
Audio Out
RMII
Ethernet RJ‐45
Mil
Milan
FS1230A
I2S
I2S
USB
APPLE PCM5100PWR
Auth iC
2CH DAC
D
POWER CORD TYPE
AC IN
WIRING DIAGRAM D
230V : IEC Removable
DIGITAL B'D
CN1100
F-USB
1 7
1
WF1501
1.25mm pitch
15
CN1200
2.0mm Pitch
17
1
1
1.25mm Pitch
WF1502
HEAT-DET
REAR PANEL
CN1400
3
1
27
WF1401 WF1500 WF1400
2 1 1.25mm pitch
1.0mm pitch 1.25mm pitch
3.96mm Pitch 1 11 1 15 23 1
CN90
JACK B'D
C C
SMPS B'd 1 11
WF31
1.25mm pitch
TUNER
BN1401
TEMP MAIN B'd BN60
1 3 1 3
3.96mm Pitch
1
1.25mm pitch
CN54
17
CN66
2.0mm pitch
1 7
1
1.25mm Pitch
CN55
CN60 BN65
3.96mm Pitch
B 2.0mm Pitch
B
1 3 1 15
27
BLUETOOTH
1
CN1101
15
23 1
BN71 WF70
2.0mm pitch
VFD
1.25mm pitch
VOLUME B'd
7
STBY_LED B'd
CN72
2.0mm Pitch
BN78 1 5 REVISION 2 4 6
BN73 CN73(Dual) 5 1
(Dual) BN72 1 3 5 7
FRONT B'D
2.5mm pitch 2.5mm pitch 2.0mm Pitch
A 2.0mm Pitch A
SCHEMATIC DIAGRAM
1 5
SHEET
1 7
MODEL AVR161/230 1
1
2.0mm pitch
1
CN78
2.0mm pitch
MHL PORT
2
2 AVDD33 XTAL_VCC33
+3.3V_TX +1.3V_TX AVDD13
EN_RX1_PWR 4 4
ENB
VOUT 1
1 R1006 OPEN TDVDD13
GND
EN APVCC13
4.7uF 6.3V
4.7uF 6.3V
4.7uF 6.3V
4.7uF 6.3V
+5VH1
4.7uF 6.3V
4.7uF 6.3V
C1003
OPEN
R1019
4.7uF 6.3V
4.7uF 6.3V
0.1
0.1
0.1
0.1
IC1001
4.7uF 6.3V
4.7uF 6.3V
R1008
OPEN
0.1
0.1
0.1
OPEN
+5V_SB
4.7uF 6.3V
0.1
4.7uF 6.3V
0.1
0.1
0.1
10
C1013
C1014
C1017
C1012
C1011
C1010
C1026
C1024
C1025
C1016
C1015
C1023
C1022
C1008
IC1002
C1009
C1029
C1030
C1027
C1028
C1007
C1044
C1043
C1042
+3.3VC
T1001 CVISTMPS2161STR
T1002 4.7Kohm
3 3 5 R1010 0_NC
OCB VIN 5 ST+5V_HDMI
R1009 R1011 0
+5VH1
GND
1 1 EN 4
4 R1012 0 EN_VBUS
VOUT
ENB R1013 0_NC IOVCC33
MHL_DET
2
C1004
4.7Kohm
0.1uF
R1014
MHL_RX_HPD CVCC13 TPVDD13
2
ST+5V_HDMI
L1004
CLZ9R005Z
47K_NC
D L1001
HCB1608KF-600T30
L1007 L1009 D
47Kohm
R1002
ST+5V
HCB1608KF-600T30 HCB1608KF-600T30
10V/22uF
4.7uF 6.3V
4.7uF 6.3V
C1001
C1002
0.1uF
R1001
4.7uF 6.3V
4.7uF 6.3V
4.7uF 6.3V
4.7uF 6.3V
47Kohm
47Kohm
R1005
0.1
R1004
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
HP DET HDMI1_RX_HPD
19
19 R1016
+5V R1003 0
C1021
HDMI1_RX_PWR
18
C1020
C1037
C1036
C1035
C1018
C1019
C1033
C1034
C1040
C1041
18
C1039
C1038
C1032
C1031
10
GND
5.1Kohm
17
C1005
1uF
R1015
17
DDC DATA HDMI1_RX_DDC_SDA
16
16
DDC CLK HDMI1_RX_DDC_SCL
15
15
NC
14
14
CE REMOTE
13
CEC
13 T1003
12 T1004
D1 SHIELD
11
11
CK+ HDMI1_RX_CK+
10
HDMI1_RX_D2+
HDMI1_RX_D0+
HDMI1_RX_D1+
HDMI1_RX_CK+
HDMI1_RX_CK-
HDMI1_RX_D1-
HDMI1_RX_D2-
HDMI1_RX_D0-
10
D0- HDMI1_RX_D0-
9
9
D1 SHIELD
8
HDMI4_RX_D1+
HDMI4_RX_D0+
HDMI3_RX_D1+
HDMI3_RX_D2+
HDMI3_RX_D0+
HDMI2_RX_D2+
HDMI2_RX_D1+
HDMI4_RX_CK+
HDMI2_RX_D0+
HDMI3_RX_CK+
HDMI2_RX_CK+
HDMI4_RX_D1-
D0+
HDMI4_RX_CK-
HDMI3_RX_D2-
HDMI3_RX_D1-
HDMI2_RX_D1-
HDMI2_RX_D0-
HDMI4_RX_D0-
HDMI3_RX_D0-
HDMI2_RX_D2-
HDMI3_RX_CK-
HDMI2_RX_CK-
HDMI1_RX_D0+
7
7
D1- HDMI1_RX_D1-
6
CJJ9H008Y
8
5
8
D2 SHIELD
RN1004CRJ064IJ103T
RN1003CRJ064IJ103T
5
5 5 6 7 8 5 6 7 8
1005 / 5.1ohm
1005 / 5.1ohm
1005 / 5.1ohm
1005 / 5.1ohm
1005 / 5.1ohm
1005 / 5.1ohm
1005 / 5.1ohm
1005 / 5.1ohm
D1+ HDMI1_RX_D1+
4
4
D2- HDMI1_RX_D2-
3
3
D2 SHIELD CD_SENSE0
2
2
1 2 3 4 1 2 3 4
D2+ HDMI1_RX_D2+
AVDD33
AVDD13
CVCC13
JK1001
4
AVDD33
AVDD13
4
R1073
R1074
R1075
R1076
R1077
R1079
R1078
R1080
0.047u
C1006
T1005
4
T1006
8 4
3
44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 7 3
+5VH1 R3X2- D13
2
R1024 6 2
R3X1-
R3X0-
R2X2-
R3X1+
R3X0+
R2X2+
R2X1+
R3XC-
HDMI4_RX_D2-
R3XC+
AVDD12
D19
D18
D17
D16
D15
D14
45
DE
R2X0+
R1X2+
R1X1+
R1X0+
R0X2+
R0X1+
R0X0+
176
R2X1-
R2X0-
R1X2-
R1X1-
R1X0-
R0X2-
R0X1-
R0X0-
R2XC-
R1XC-
R0XC-
HSYNC
VSYNC
R2XC+
R1XC+
R0XC+
AVDD33
CVCC12
AVDD33
AVDD12
1
R3X2+ D12 5 1
0 HDMI4_RX_D2+ 46 175
Q1002NC
D11 CRJ064IJ103TRN1005
1K_NC
R1029
R4XC-
47K_NC
HDMI5_RX_CK- 47 174
1Kohm_NC
R1025
4
HDMI5_RX_CK+ 48 R4XC+ IOVCC33 173 8 4
Q1003NC IOVCC33
3
HDMI5_RX_D0- 49 R4X0- IDCK 172 7 3
R1023
HDMI2_RX_HPD
2
R1026 HDMI5_RX_D0+ 50 R4X0+ D10 171 6 2
HP DET
19
19
1
R1030 HDMI5_RX_D1- 51 R4X1- D9 170 5 1
22Kohm_NC
+5V HDMI2_RX_PWR
18
18 CRJ064IJ103TRN1006
R1027 R1028 10 HDMI5_RX_D1+ 52 R4X1+ D8 169
GND
5.1Kohm
4
17
C1047
1uF
R1031
17 8 4
C1046 0.1uF_NC HDMI5_RX_D2- 53 R4X2- D7 168
47Kohm
DDC DATA 47Kohm HDMI2_RX_DDC_SDA
3
16
16 7 3
HDMI5_RX_D2+ 54 R4X2+ D6 167
DDC CLK HDMI2_RX_DDC_SCL
2
15
15 6 2
AVDD13 55 AVDD12 D5 166
NC
1
14
14 5 1
AVDD33 56 AVDD33 D4 165
CE REMOTE T1007 CRJ064IJ103TRN1007
13
13 CEC
57 R5XC- D3 164
C C
JK1006
8 4
CK- HDMI2_RX_CK- T1008
12
1
7
3
7 3 1
D1 SHIELD
11
2
6
2
6 2 2
CK+ HDMI2_RX_CK+
10
3
5
1
5 1 3
D0- HDMI2_RX_D0-
9
4
4
CJJ9H008Y
D1 SHIELD
8
5
5
D0+ HDMI2_RX_D0+
7
6
6
D1- HDMI2_RX_D1-
6
D0+
CJJ9H008Y
7
7
D2 SHIELD
5
5
D1 SHIELD
SiI9575
CVCC13 65 CVCC12 T0X1- 156
8
R1061 4.7K 8
D1+ HDMI2_RX_D1+ +3.3V_COM
4
HDMI_SCL R1064 22
4 66 CSCL T0X0+ 155 D0-
9
9
D2- HDMI2_RX_D2- R1062 4.7K
3
3 R1065 22
CK+
10
HDMI_SDA 67 CSDA T0X0- 154
10
D2 SHIELD R1063 4.7K
2
2
D1 SHIELD
11
4.7K_NC
HDMI_INT 68 INT T0XC+ 153
IC1005 11
R1066
D2+ HDMI2_RX_D2+
JK1002
T1009
T1010
1
CK-
12
69 RESET# T0XC- 152 12
R1071 4.7K_NC
CE REMOTE
13
70 TPWR_CI2CA TDVDD12 151 TDVDD13 CEC
13
R1072 4.7K
Q1010 NC
14
71 CEC_A1 TPVDD12 150 TPVDD13 ARC1
+5VH1 14
R1033 one of two don`t used.
HDMI_TX_DDC_SCL1
DDC CLK
15
72 CEC_A0/WAKEUP T1X2+ 149
R1059 0_NC 15
T1025
0 HDMI_RST R1068 10K
DDC DATA
16
Q1004 NC 73 DSDA6(VGA) T1X2- 148 HDMI_TX_DDC_SDA1
R1060 16
1K_NC
R1038
47K_NC
R1069 10K
GND
1Kohm_NC
17
74 DSCL6(VGA) T1X1+ 147
17
R1034
1Kohm 0
RT1N441C_NC
R1082
C1054 R1070
R1081
+5V
1.8K
1.8K
18
Q1005NC 75 LPSVCC33 T1X1- 146
18
HDMI_TX_HPD1
HP DET
19
R1032
47K
HDMI3_RX_HPD +5VH1 19
R1035 DSCL0 T1X0-
HDMI1_RX_DDC_SCL 77 144
HP DET
19
19
22Kohm_NC
R1039
CBUS_HPD0 T1XC+
L1011
HDMI1_RX_HPD 78 143
+5V
R1083
HDMI3_RX_PWR
18
18
R1036 R1037 10 R0PWR5V T1XC-
HDMI1_RX_PWR 79 142 HCB1608KF-600T30
GND
5.1Kohm
C1056
10/6.3
C1055
17
C1049
1uF
R1040
0.1
17
4.7K_NC
C1048 0.1uF_NC
47Kohm HDMI2_RX_DDC_SDA DSDA1 TDVDD12 TDVDD13
R1067
80 141
DDC DATA 47Kohm HDMI3_RX_DDC_SDA
16
16
HDMI3_RX_DDC_SCL HDMI2_RX_DDC_SCL 81 DSCL1 TPVDD12 140 TPVDD13
DDC CLK
15
15
T1023
T1024
T1021
T1022
HDMI2_RX_HPD 82 CBUS_HPD1 CVCC12 139 CVCC13
NC
14
14
T1011 HDMI2_RX_PWR 83 R1PWR5V ARC1 138
CE REMOTE
13
13 CEC
C1057 1uF
T1012 HDMI3_RX_DDC_SDA 84 DSDA2 ARC0 137
CK- HDMI3_RX_CK-
12
12
HDMI3_RX_DDC_SCL 85 DSCL2 SD1_IN/SD1_OUT/SPDIF1_IN/SPDIF1_OUT 136 300 300
D1 SHIELD
11
SD0_2/DL1/GPIO7
SD0_1/DR1/GPIO6
SD0_3/DR2/GPIO8
11 CBUS_HPD2 C1058 C1059
WS0_IN/GPIO11
SCK0_IN/GPIO10
MHL_CD0/GPIO0
MHL_CD1/GPIO1
MUTEOUT/GPIO9
SPDIF0_OUT/DL2
WS1_IN/WS1_OUT
HDMI3_RX_HPD 86
WS0_OUT/DR0
135
CK+ HDMI3_RX_CK+ R1084 R1086
10
ARC1 HDMI_TX_HPD1
CBUS_HPD3
CBUS_HPD4
CBUS_HPD5
SCLK/GPIO3
10 R2PWR5V 62 62
SD0_0/DL0
SD0/GPIO4
TX_DSDA0
TX_DSCL0
TX_DSDA1
TX_DSCL1
SDI/GPIO5
VCC33OUT
SCK0/DDCK
XTALVCC33
SCK1_IN/SCK1_OUT 1uF 1uF
TX_HPD0
TX_HPD1
SS/GPIO2
R3PWR5V
R4PWR5V
R5PWR5V
XTALGND
87 134
SBVCC5V
XTALOUT
HDMI3_RX_PWR
D0-
APLL12
HDMI3_RX_D0-
XTALIN
CVCC12
IOVCC33
9
DSCL3
DSCL4
DSCL5
DSDA4
DSDA5
RSVDL
9 DSDA3
MCLK
SD0_IN/SPDIF0_IN R1085 R1087
HDMI4_RX_DDC_SDA 88 133
D1 SHIELD
R1089
R1088
8
0
8
0
89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132
D0+ HDMI3_RX_D0+
7
7
ARC_SPDIF2
D1- HDMI3_RX_D1-
6
R1093
CJJ9H008Y
6
D2 SHIELD
5
10Kohm
R1094
IOVCC33
D1+ HDMI3_RX_D1+
4
XTAL_VCC33
D2-
APVCC13
HDMI3_RX_D2-
+5V_SB
CVCC13
0
3
3
D2 SHIELD R1090 150
2
2 DSP_DATA0
CD_SENSE0
HDMI_TX_HPD1
HDMI_TX_DDC_SDA1
HDMI_TX_DDC_SCL1
R1091 33
D2+ HDMI3_RX_D2+
DSP_SCLK
JK1003
1 R1092 33
HDMI4_RX_HPD
HDMI4_RX_PWR
HDMI5_RX_DDC_SCL
HDMI5_RX_DDC_SDA
HDMI5_RX_HPD
HDMI4_RX_DDC_SCL
HDMI5_RX_PWR
DSP_LRCK
T1013
T1014
4 3 2 1 4 3 2 1 4 3 2 1
T1026 T1027
B
RN1010
RN1011
B
RN1009
+5VH1
R1097
R1042
0
33X4
33X4
33X4
0
Q1006NC
1K_NC
120K
R1047
47K_NC
1Kohm_NC
8 7 6 5 8 7 6 5 8 7 6 5
ARC_SPDIF1
R1043
R1095 120k~130k
Q1007NC
R1096
0
HDMI_SPI_MOSI
R1041
HDMI_SPI_SCK
HDMI4_RX_HPD
R1044
HP DET
19
19 R1048
22Kohm_NC
+5V X1001
C1060
10P
HDMI4_RX_PWR
18
18
R1045 R1046
C1061
10
10P
+3.3V_COM
GND
HDMI_SD1
HDMI_SD3
HDMI_SCK
HDMI_MUTE_OUT
5.1Kohm
HDMI_SD0
HDMI_SD2
HDMI_LRCK
17
HDMI_MCK
C1051
1uF
R1049
17 C1050 0.1uF_NC
47Kohm
DDC DATA 47Kohm HDMI4_RX_DDC_SDA
16
16
DDC CLK HDMI4_RX_DDC_SCL HDMI_SPI_HOLD
15
15
NC
14
14
CE REMOTE T1015
13
13 CEC
CN1001
24mA
HDMI_LRCK
HDMI_SD2
12
HDMI_SD1
HDMI_SD0
HDMI_SCK
12 CJP07GA193ZY
10Kohm
+3.3V_COM
R1022
D1 SHIELD 10022H-07C
11
11
R1099
10K
CK+ HDMI4_RX_CK+
C1062
10
0.1uF
10
R1701
D0- HDMI4_RX_D0-
SCK
9
1
9
D1 SHIELD Q1001 0
GND
8
2
8
8 7 6 5 R1702
D0+ HDMI4_RX_D0+
MOSI
CVIMX25L8006EM2I-12G
7
HDMI_RX_AUDIO_SW
3
7
SO HOLD
R1098
CS VCC
WP SCK
10K
GND SI
D1- HDMI4_RX_D1- 0
VCC
6
IC1004
4
CJJ9H008Y
R1700
10K
D2 SHIELD R1703 0
T1N241C
CS
5
5
5
D1+ HDMI4_RX_D1+ 0
R1704
MISO
4
6
4
10 9 8 7 6 5 4 3 2 1
D2- HDMI4_RX_D2-
GND
3
1 2 3 4
VCC OE1
7
3
Y8 GND
A8
A7
A6
A5
A4
A3
A2
OE2 A1
D2 SHIELD
2
2
IC1003
D2+ HDMI4_RX_D2+
+3.3V_COM
Y7
Y6
Y5
Y4
Y3
Y2
Y1
JK1004
11 12 13 14 15 16 17 18 19 20 12.09.14 ISSUE
ANAM
MP
MULTI. LAB
0.1uF
C1045
T1018
T1017
HDMI_SPI_MISO
+5VH1 4 3 2 1 4 3 2 1 HDMI_SPI_CS 2012.11.08
RN1001
RN1002
R1051
22X4
22X4
0
Q1008 NC
+3.3V_COM
1K_NC
R1057
47K_NC
1Kohm_NC
R1052
8 7 6 5 8 7 6 5 09.03.18
Q1009NC
Added : 100K ohm
R1050
100K_NC 100K
REVISION 2 4 6
HDMI5_RX_HPD
R1053
HP DET
19
19 R1056
R1020 R1021
22Kohm_NC
+5V
18
HDMI5_RX_PWR
1 3 5 7
18 R1055
R1054 10
GND
5.1Kohm
17
A A
R1058
17 0.1uF_NC
C1053
C1052
1uF
47Kohm
DDC DATA 47Kohm HDMI5_RX_DDC_SDA
16
16
DDC CLK HDMI5_RX_DDC_SCL
15
SCHEMATIC DIAGRAM
15
NC
SHEET
14
14
CE REMOTE T1019
13
13 CEC
12
D1 SHIELD
11
11
CK+
AVR161/230
HDMI5_RX_CK+
10
9
10
MODEL
D0- HDMI5_RX_D0-
9
9
D1 SHIELD
27
8
8
HDMI_RX_MCLK
D0+
HDMI_RX_SCK
HDMI_RX_SD3
HDMI_RX_SD2
HDMI_RX_SD1
HDMI_RX_SD0
HDMI_RX_LRCK
HDMI_RX_SPDIF
HDMI5_RX_D0+
7
7
D1- HDMI5_RX_D1-
6
CJJ9H008Y
D2 SHIELD
DESIGN CHECK APPROVE DRAWING NO
5
5
D1+ HDMI5_RX_D1+
4
4
D2- HDMI5_RX_D2-
3
3
D2 SHIELD
CUP12504SCDZ
2
D2+ HDMI5_RX_D2+
JK1005
2012.11.08 HDMI_REPEATER 1
Page 167 of 1786
Harman Kardon 6 5 4 3 2 1 AVR 161 Service Manual
USB_ OE
NET_3.3V
L1112
AVR161/230 L1113
NET_3.3V
USB_SEL
0.01uF
C1150
C1154
C1149
C1151
C1152
C1153
1uF
1uF
0.1uF
0.1uF
68P
MCU_USB_DM
NET_3.3V MCU_USB_DP
CHGND CHGND
R1100 L1111 CHGND CHGND
C1100
D 10K NET_1.2V D
C1147
C1148
1uF
0.1uF
10V/22uF
0.01uF NET_3.3V
0.01uF
C1155
C1156
68P
IC1100 USB
C1157
C1142
0.1uF
0.1uF
NET_3.3V
C1143
C1144
C1145
C1146
10P
0.1uF
0.1uF
1uF
CVIISL54220IUZ-T
L1109
NET_1.2V
10
VDD SEL HCB2012KF-221T25
G11
N10
D10
G10
1
R14
A10
B11
CHGND
D5
N7
H8
K8
C4
E2
F3
L4
L3
L5
CHGND
J5
IC1106
CHGND CHGND CHGND NET_2V5
LDO3V3
VDDIODIG1_0
VDDIODIG1_1
VDDIODIG1_2
VDDIODIG1_3
VDDIODIG1_4
VDDIODIG1_5
VDDIODIG1_6
VDDIODIG2_0
VDDIODIG2_1
VDDIODIG2_2
VDDIODIG2_3
VDDIORF
CHGND CHGND
VDDCORE_4
VDDCORE_3
VDDCORE_2
VDDCORE_1
VDDCORE_0
C1130 CVIFS1230A
D1+
R1138
OE
9
2
22uF/6.3V L1115
E5 MFIO_12 LDO2V5 C2 T1102
E_256FS
R1152
R1153
4.7K
4.7K
E9 J2 SPI1_MISO
MFIO_15 AVDDIO2V5
2.2uF 6.3V
E11 MFIO_14 AVSSIO2V5 K2
0.01uF
D1- D2+ E_64FS
C1158
C1159
C1160
C1161
68P
0.1uF
D8 MFIO_13 AVSSIOANA H3
C9 D3
8
3
E_FS MFIO_132 AGND_ANA IC1105
IC1104 SDRAM
3
C1131 0.01uF B10 MFIO_133
A3V28S40FTP-G6 D9 CHGND CVIAT45DB321D
MFIO_134 CHGND CHGND
E_DATA
4
C1132 0.01uF E8 MFIO_135 AVDDCOREPLL G2
D2- D+ 2012.11.05 CHGND CHGND
0.01uF AVSSCOREPLL F2
C1133 75ohm (1005SIZE X 4),1/16W 33 -> 75 SPI1_MOSI
SI SO
8
7
54
1
D0 VDD VSS K7 MFIO_16
L1116
D15 AVDDCOREADC H2
53
2
D- C1134 1uF DQ0 DQ15 MILAN_SPDIF AVSSCOREADC G4
D0 A12
0.01uF
MFIO_56
52
SPI1_SCK
3
GND
C1164
USB_DN D1 SCLK
C1162
C1163
VDDQ VSSQ
68P
GND
0.1uF
B12
7
6
D1 D14 D2 C12
MFIO_57
J1 CHGND
MFIO_58 RFII
51
USB Connector
D3
4
D2 DQ1 DQ14 D12 MFIO_59 RFIQ H1
D13 D4 E12 MFIO_60
50
D5
5
R1101 DQ2 DQ13 D13 CHGND
USB I/F
MFIO_61
D6 A14 K1 HOLD VCC
6
MFIO_62 RFIIB
49
CHGND
D7
6
CHGND CHGND
D3 VSSQ VDDQ C1139 1uF D12 D8
E13 MFIO_63 RFIQB G1
10K C11 MFIO_64
48
D9
7
D4 DQ3 DQ12 D11 D10
F10 MFIO_65
G7 MFIO_66 MFIO_105 K14 CHGND
47
SPI1_CSNO
/CS
8
DQ4 DQ11 D11 C13 K12 /WP
5
C1135 1uF MFIO_67 MFIO_106
D12 B13 MFIO_68 MFIO_107 K9
46
D13
9
USBD+ D5 VDDQ VSSQ D10 D14
A13 MFIO_69 MFIO_108 K13 R1154
12.07.26
C10 K15 FLASH_WPN
USB_DP MFIO_70 MFIO_109
10
45
DQ5 DQ10 D15 F11 K6
D6 D9 MFIO_71 MFIO_110
L14 12.09.17 OPEN
MFIO_111
11
44
DQ6 DQ9 MFIO_112 J4
C1140 1uF
R1155
220K
L15 R1160 OPEN
MFIO_113 ETH_RST
12
43
USBD-
VSSQ VDDQ A0 G14 L10
D7 D8 A1 G12
MFIO_33 MFIO_114
K11
MFIO_34 MFIO_115
13
42
DQ7 DQ8 A2 G13 MFIO_35 MFIO_116 L13
C1136 0.01uF A3 G15 L12 CHGND
MFIO_36 MFIO_117 NET_3.3V
14
41
A4 CHGND
VDD VSS H12 MFIO_37 MFIO_118 M15
SDRAM_LBN R1134 1005 /1/16W / 33ohm A5 F15 M14
12.11.08 MFIO_38 MFIO_119
15
40
R1135 LDQM N.C R1137 R1170 A6 H11 N15
SDRAM_WEN 12.11.12 SDARM_UBN A7 E15
MFIO_39
MFIO_40
MFIO_120
MFIO_121 M13
16
39
WE MDQM A8 D15 MFIO_41 MFIO_122 K10
A17 1005 /1/16W / 33ohm 1/16W / 0ohm 1005 /1/16W / 100ohmSDRAM_CLK A9 C15 L11
MFIO_42 MFIO_123
17
38
CAS CLK A10
A16 12.11.12 7P C1141 SDRAM_CKE A11
H6
G5
MFIO_43 MFIO_124 L9
M12 100K
L1117
MFIO_44 MFIO_125
18
37
R1136 RAS CKE A12 F5 MFIO_45 MFIO_126 P15
SDARM_CSN 12.11.12 A12 A13 A15 MFIO_46 MFIO_127 L7
19
36
A14 R1144
CS N.C B15 MFIO_47 MFIO_128 N12
A13 1005 /1/16W / 33ohm A11
0.01uF
H13 N14
0(N.C)
C1166
R1145
C1165
MFIO_48 MFIO_129
0.1uF
20
35
BA0 A11 A16 E14 MFIO_49
A14 A9 A17 F13 MFIO_50
21
34
USB PART
BA1 A9 J9 MFIO_51 AVDDIOUSB_3V3 B3
A10 A8 H14 MFIO_52 AVSSIOUSB_0 B2
22
33
CHGND USBD-
A10/AP A8 H15 MFIO_53 USBN C1
A0 A7 J10 MFIO_54 USBP B1
23
32
A0 A7 SDRAM_CKE G9 MFIO_55 USBXTI A1 USBD+
A1 A6 A2
USB_CURRENT
USBXTO
24
31
X1101
R1146
A1 A6 2012.11.05 E4
1M
USB_VBUS 1 4
A2 A5 33 -> 100 MFIO_29 C6 R1141 3.3K_NC
25
30
A2 A5 SDARM_UBN C14 MFIO_79 MFIO_28 D6 R1148
12.08.01
A3 A4 SDRAM_LBN F12 C3 2 3
100K 6K04
C C
MFIO_80 USB_ID R1142
26
29
A3 A4 SDRAM_CLK R1139 100 D14
MFIO_32 USB_RREFEXT D4
C1167
C1168
10P
10P
SDARM_CSN F14 MFIO_78
100
27
28
C1137 0.01uF VDD VSS SDRAM_WEN B14 R1143
MFIO_77
MFIO_19 D11
CHGND
12.11.12
MFIO_21 G6 CHGND CHGND
J15 R1147 0
CHORUS_VBUS
R1250
CHGND MFIO_75
R1104 100 CHORUS_VBUS J11 MFIO_76
R1140 J12 H10 CHORUS_VBUSDRIVE
MFIO_73 MFIO_22
J14 MFIO_72 MFIO_159 P13 USB_VBUS_FAULT
CHGND MFIO_23 R15
R1105 10K USB_VBUS MFIO_138 R11 SPI1_SCK
VBUS
1
SPI1_MISO
B6 MFIO_96
1000P
SPI1_MOSI
C1102
C1103
A5 E3
0.1uF
MFIO_95 MFIO_8
VBUS+5V 12.11.05 ETHERNET JTAG_TMS
WF1100
F6 D2 SPI1_CSNO
2
MFIO_94 MFIO_9
1
Front USB
2
VBUS+5V USB+5V B4 N9
3
MFIO_90 MFIO_26
A4 MFIO_92 MFIO_27 P11 JTAG_TCK
3
L1102 FLASH_WPN A6 MFIO_97 ESDA
USBD+ USB_DP C7 12.07.26 JTAG_TDI
4
MFIO_98
4
A7 MFIO_99 MFIO_18 L8
UART_RX
B8 MFIO_100 MFIO_17 M4
5
UART_TX
USBD- C8 N13
5
MFIO_101 MFIO_130
USB_DN B9 MFIO_102 MFIO_131 M10
6
L1100 A8
DGND DLW21SN181SQ2L A9
MFIO_103
6
MFIO_104
7
CN1100
CLZ9R006Z F4
L1101 MFIO_10
G3
MFIO_11 POR_N
8
DGND ETH_SCLK P3 R3
7
MFIO_0 MFIO_142
CLZ9R006Z ETH_CSN P7 MFIO_1 MFIO_137 E7
9
ETH_SI P8 MFIO_2
ETH_SO N5 SPI1_CSNO
10
MFIO_3
M8 MFIO_4 GPVIN0 K3
N11 J3 SPI1_MOSI
11
MFIO_5 GPVIN1
M11 MFIO_6 GPVIN2 H4
N2 H5 SPI1_SCK
12
MFIO_7 GPVIN3
P12 MFIO_136
P10 F8 JTAG_TDI
13
MFIO_139 TDI
R13 MFIO_158 TDO D7 JTAG_TDO
B7 JTAG_TMS SPI1_MISO
14
TMS
F7 JTAG_TCK
TCK
R2
NET_3.3V
15
MFIO_140 NET_3.3V
P4 MFIO_141 POR_N J7
P1 MFIO_143
R1 MFIO_144
P5 MFIO_145 MFIO_81 K5
T1103
C1171
M5
0.01uF
MFIO_146
R5 MFIO_147 MFIO_82 M1
R1151
P6 L1
33
MFIO_148 MFIO_83 CHGND
NET_3.3V R6 MFIO_149 MFIO_84 M2
N6 MFIO_150 MFIO_85 M3
M6 N1 Q1100
K4 VSSCORE_0
M9 VSSCORE_1
J8 VSSCORE_2
E6 VSSCORE_3
F9 VSSCORE_4
MFIO_157 XTO
VSSIO_10
C1104
VSSIO_0
VSSIO_1
VSSIO_2
VSSIO_3
VSSIO_4
VSSIO_5
VSSIO_6
VSSIO_7
VSSIO_8
VSSIO_9
R1106
R1107
4.7K
4.7K
3
0.1uF POR_N
R1149
ESCL
24.576M
1M
P14
D1
L2
L6
J6
G8
A11
E10
H7
R7
A3
X1102
TO CHORUS 3 TO MAIN_CPU
2
270
IC1101 8 7 6 5 R1150
C1169
C1170
22P
22P
VCC
RST
NC
CHORUS_VBUSDRIVE
SCL
9
CHORUS_VBUS
GND
USB_VBUSDRV
SDA
CHGND
MCU_USB_DM
CHGND CHGND
MCU_USB_DP
NC
NC
USB_VBUS
CHGND
USB_SEL
1 2 3 4 CHGND
USB_ OE
USB_OC
USBD+
USBD-
ESDA
ESCL
ESDA
B B
CHGND
CHORUS_VBUSDRIVE
CHORUS_VBUS
USB_VBUSDRV
MCU_USB_DM
MCU_USB_DP
USB_VBUS
USB_SEL
USB_ OE
USB_OC
USBD+
USBD-
ESDA
ESCL
NET_3.3V
Ethernet 12.08.01
DAC PART
NET_3.3V
NET_1V8
R1115
R1116
C1110
0.1uF
4.7K_NC
R1113
4.7K
4.7K
ISSUE
R1117 33
0.1uF
ETH_INTN
R1114
MP
CLZ9R005V
L1108
0
ANAM
L1106
CJJ9L026Z
MULTI. LAB
CLZ9R005V
CLZ9Z014Z
L1107
10
T1101
T1100
L1103 2012.11.08
16V/10uF
32
9
IC1103
8
C1127
33
C1126
0.1uF
INTRN
PME
AGND
DGND
EDD_IO
EESK
DLW21SN900SQ2L ETH_SI
R1126
VDD1V8_Output
LED0
CVIPCM5100PWR
10Kohm
10
31
7
R1127
EECS
10K
SI
1 2
DVDD CPVDD
11
30
6
RXP VDD_IO
20
IC1102
1
C1115
12
29
1SS355T
1SS355T
C1117
5
4 L1104 3
C1118
ETH_SCLK
0.1uF
19
13
28
2
4
AGND SCLK
R1120 33 C1116
10 DLW21SN900SQ2L ETH_SO
CHORUS 3 LDOO CPGND
2.2uF 6.3V
14
27
REVISION 2 4 6
3
TXP SO
R1121 33 0.1uF
18
3
1 2 ETH_CSN
2.2uF 6.3V
15
26
2
TO VOLUME
C1107 TXM CSN
XSMT CAPM
C1119
17
JK1100
16
25
4
1
VDD3V3 VDD_IO
17
18
19
20
21
22
23
24
1 3 5 7
0.1uF
4 3
9
FMT VNEG
CLZ9R005V
L1105
16
A 5 R1129
A
VDD1V8
AGND
X1
X2
ISET
DGND
DGND
RSTN
470
C1108 LRCK OUTL C1128 10/16V
E_FS
15
MILAN_L
6
SCHEMATIC DIAGRAM
OPEN
OPEN
OPEN
OPEN
MILAN_R
7
C1122
C1123
2200P
2200P
C1124
C1125
470
R1131
R1132
E_64FS
100K
100K
R1124 300
16V/10uF
13
22P
22P
8
C1120
R1109
R1110
R1111
R1112
C1121
51
51
51
51
R1122 1M R1133
AVR161/230
10
D1100
D1101
D1102
D1103
CHGND
R1128 FLT DEMP
11
10
4
2
1
10K 10K
MODEL 27
0.1uF
0.1uF
C1105
C1106
0.1uF
0.1uF
C1190
C1191
25MHz X1100
C1114
22P
22P
12.08.23 12.08.23
CUP12504SCDZ
2012.11.08 (NETWORK_MILAN) 2
Page 168 of 1786
Harman Kardon 6 5 4 3 2 1 AVR 161 Service Manual
2012.03.01
R1212 L1201
FROM SMPS
R1208 0
0 CLZ9Z014Z
R1209 0 R1213
L1202
R1210 0
0
CLZ9Z014Z
R1211 0 R1214
L1203
R1265 0
0
PW_GND AGND R1215 CLZ9Z014Z
15 +5V_DC/DC
C1212
POWER_DOWN
15
POWER_DOWN
D AMP_VCC_ON ST+5V
D
14 R1255
AMP_VCC_CONT 0.01uF
14
R1256
450mA +7VD +5VH1
ST+5V 12 CLZ9Z014Z
CLZ9Z014Z
12
10V/22uF
C1257
C1258
100/16V
C1205
0.1
0.1uF
+12V
C1204
ST+5V 11
L1205
11
AGND
C1239 0.1uF X7R Series
+12V
10
CLZ9Z014Z
10
DSP 5V Power
C1203
100/16V
0.1uF
-12V L1218
C1202
X7R Series
AGND 9
C1240
9
C1260
Max. 3820mA
0.1uF
10V/22uF
C1259
100/16V
C1201
0.1uF
C1241 0.1uF IC1204
C1200
D+7V
7
7
C1213
+7VD Nor. 3000mA DB1230HE
6
D+7V CHGND R1236 10K
6
0.01uF
EN VIN
8
2012.03.02
R1216 0
D+7V 5
5
R1217 0 R1239
PWR_SW1
470/16V
4
C1207
FB BS
0.1uF
PWGND
7
4
C1206
R1218 0
0
C1245
0.01uF
12.07.26 C1242
CN1200 CJP15GB276ZY
PW_GND R1219 0
3
PWGND
3
10V/2.2uF
R1220 0
VCC SW
6
VOL_SEL_2
2
VOLTAGE_SEL2 R1237
2
R1221 0 10K,1%
DSP_1.0V
PW_GND
VOL_SEL_1 1
VOLTAGE_SEL1 C1243 0.01uF
1
R1257 0
SS GND
5
R1258 0
R1259 0 +1V0_DC
2A 1.0V
L1212
R1260
C1244
0
R1238
R1261 0 PW_GND
Left Screw Hole Right Screw Hole
R1200 0 R1204 0 R1270 0 R1262 0
T1200 T1201
R1205 0 R1263 0
R1201 0
10V/22uF
R1206 0 R1264 0
R1202 0
C1276
R1207 0 R1273 0
OPEN
R1203 0
C1246
R1271 0 R1274 0
R1272 0 12.12.11
HGND AGND
HGND
PW_GND PW_GND
PW_GND
FROM SMPS
+7VD
C C1267 10V/22uF
X7R Series C
8
DC/DC (SIL9575 +3.3V) C1215 10V/22uF X7R Series
7
IC1201 0
C1262
0.01uF
C1216 0.1uF DB1230HE C1265
10V/2.2uF
R1222 10K VCC SW
6
EN VIN
1
5
FB BS
2
0
12.12.11
0.01uF
C1220
+5V_DC/DC
0.015uF
VCC SW PW_GND
27K 1%
C1263
L1219
3
R1268
12.11.05
R1223 15K PW_GND
+3.3V_TX +3.3V_COM
L1207
0.015u
C1219
R1224
47K
DC/DC Regulator 2A
10V/22uF
PW_GND
C1261
C1271
NET_PWR_SW
OPEN
L1208
PW_GND CLZ9R005Z
12.12.11
0.1uF
10V/22uF
ST+5V
C1223
10V/22uF
CVIEML3418-00SE08GRR
C1221
C1272
C1222
OPEN
L1213 R1240
NET_3.3V 2A 3.3V
EN FB
1
12.12.11 TO DSP CLZ9Z014Z 10K
+3V3_DC PW_GND IC1205 PW_GND
PW_GND R1241
L1210 V_IN_C VSS_C
2
L1209 CLZ9Z014Z 10K
3216 10uF/25V
R1242
CLZ9Z014Z
47K
0.1uF
C1247
C1227
10V/22uF
C1226
V_IN_1 VSS_P
3
C1224
0.1uF
16V/10uF
C1225
V_IN_2 SW
L1214
3.3V_DC
4
PW_GND 1.5uH/2.3A
10V/22uF
C1248
12.11.02
VIN OUT
8
DB1514
R1228
To HDMI
10K
4.7uF 6.3V
C1229
IC1206 CVILM1117S12
PWR_SW1
R1226 EN FB
6
0
6.2K,1%
R1227
C1228
GND
0.1uF
PW_GND
OUT
100K
R1229
B B
IN
PG GND 1 2 3
5
L1215
PW_GND PW_GND
NET_1.2V
CLZ9Z014Z
C1251
0.1uF
16V/10uF
C1252
47/6.3V
C1249
0.1uF
C1250
+7VD
FROM SMPS
POWER TO MCU
CRTMINISMDC200F
F1301
PWR_SW2
T1202
T1203
T1204
T1205
T1206
R1233
FB BS
2
0
0.01uF
C1234
C1236
10V/2.2uF
VCC SW (Under +2.35V)
3
1.2V
USB_CURRENT
R1231 3.3K 1%
12.11.20 : PWR_SW2 =>LOW
0.01uF NET_PWR_SW1_Delay
3.3uH 3.2A 4040
C1235
OPEN
0.1uF
SS GND
R1234
R1235
4
L1211
0.015u
18Kohm
C1356
R1232
PW_GND
3.3V REVISION 2 4 6
PW_GND USB+5V (+5.18V) NET_PWR_SW1
1 3 5 7
10V/22uF(N.C)
* Near to CN76
10V/22uF
C1237
C1238
A A
PW_GND PW_GND
ISSUE
MODEL AVR161/230 11
27
ANAM
MULTI. LAB DESIGN CHECK APPROVE DRAWING NO
12.11.08
R1300 C1300
100 100P
R1301 +3V3_DC
4.7K AGND
1 2 3 4
NJM2115M
A-INPUT
A+INPUT
V-
A OUTPUT
-
2700P
C1301
R1302
4.7K
+
+
B OUTPUT
B+INPUT
B
3.3K
3.3K
3.3K
3.3K
3.3K
B-INPUT
-
V+
IC1300
8 7 6 5
R1367
R1368
R1369
R1370
R1371
R1303
2.7K
C1302
0.1uF
AGND
D 100 150P 0
AD_LIN D
C1306
R1308 CODEC_MUTE
10/16V AD_RIN R1332 100
DIR_RESET
R1307 C1305 0
0.1uF
DSP_CODEC_DATA
C1307
330P
C1339
DIR_MISO
R1311 C1308 0.1uF AGND
C1338
DSP_CODEC_CLK
100 100P
R1312 DSP1_RESET
C1340
C1341
C1342
C1343
C1344
C1345
+3V3_DC
4.7K SCP1_BSY
AGND
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
SCP1_CS
1 2 3 4
NJM2115M
A-INPUT
SCP1_IRQ
A+INPUT
V-
A OUTPUT
R1313
4.7K
-
SCP1_MISO
A
2700P
C1309
SD_D15
SD_D14
SD_D13
SD_D12
SD_D11
SD_D10
SD_D9
SD_D8
SD_A9
SD_A8
SD_A7
SD_A6
SD_A5
SD_A4
SD_A10
SD_A0
SD_A1
SD_A2
SD_A3
SD_A4
SD_A5
SD_A6
SD_A7
SD_A8
SD_A9
SD_D8
SD_D9
SD_D10
SD_CS
SD_DQM1
SD_CLKEN
SD_CLKEN
SD_DQM1
SD_CAS
SD_RAS
SD_BAO
SD_CLKOUT
SD_CLKOUT
+
+
B OUTPUT
DSP_MODE1
B+INPUT
B
B-INPUT
-
DSP_MODE2
V+
IC1301
8 7 6 5 4 3 2 1 4 3 2 1 4 3 2 1 4 3 2 1
4 3 2 1
ADC INPUT
82
R1314
2.7K
C1310
0.1uF
R1336
AGND 50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 8 7 6 5 8 7 6 5 8 7 6 5 8 7 6 5
+5VD_DSP 8 7 6 5
RN1302
RN1304
RN1305
RN1306
RN1303
R1315 C1311
+3V3_DC
+3V3_DC
+1VD
+1VD
+1VD
IC1304 CVIM12L16161A5TG2Q
+1VD
100 150P
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25
SD_A3/EXT_A3
144
143
142
141
140
139
138
137
136
135
134
133
132
131
130
129
128
127
126
125
124
123
122
121
120
119
118
117
116
115
114
113
112
111
110
109
DAO3_D3/XMTA
SD_A5/EXT_A5
SD_A9/EXT_A9
SD_A4/EXT_A4
SD_A6/EXT_A6
SD_CLKEN/EXT_A17
SD_DQM1/EXT_A16
SD_CLKOUT/EXT_A19
GND13
SD_A7/EXT_A7
SD_A11/EXT_A10
GNDIO6
SD_A8/EXT_A8
SD_CLKIN_EXT_A18
VDD13
DAO3_D4
SD_D8/EXT_D0
DAO3_D0
DAO3_MCLK
SD_A12/EXT_A11
DAO3_LRCK1
DAO3_LRCK2
VDD_VG
GND_FS
VDDIO6
GNDIO5
DAO3_SCK1
DAO3_SCK2
VDD14
GND14
VDDIO5
SD_D9/EXT_D1
SD_D10/EXT_D2
VDD11
GND12
GND11
SD_D11/EXT_D3
VDD12
SD_A2/EXT_A2 SD_D11
5
SD_A1/EXT_A1 SD_D12/EXT_D4
SD_D12
6
SD_A0/EXT_A0 SD_D13/EXT_D5 RN1307
SD_D13
7
SD_A10/EXT_A12 GNDIO4
8
SD_DQM0
SD_BA0/EXT_A13 VDDIO4
SD_BAO
SD_RAS
SD_CAS
SD_A10
SD_WE
+3V3_DC
SD_D0
SD_D1
SD_D2
SD_D3
SD_D4
SD_D5
SD_D6
SD_D7
SD_CS
SD_A0
SD_A1
SD_A2
SD_A3
6
SD_BA1/EXT_A14 SD_D14/EXT_D6 SD_D14
5
SD_CS/EXT_OE SD_D15/EXT_D7 SD_D15
R1327 SDRAM
6
+3V3_DC SD_RAS/EX_CS1 SD_D0/EXT_D8 RN1308
SD_D0
7
0
R1328 SD_CAS/EX_CS2 SD_D1/EXT_D9 SD_D1
10
99
8
+5VD_DSP R1337
10V/22uF
C1337
C1336
TEST_EN
0.1uF
0 SD_D2/EXT_D10 SD_D2
16V/10uF
11
98
C1335
C1334
5
0.1uF
12
97
6
C1353
GND1 SD_D4/EXT_D12 RN1309
SD_D4
13
96
7
EE_CS1 SD_D5/EXT_D13 0.1uF
SD_D5
14
95
8
C1354
IC1306
R1338
EE_CS0 GND10
15
94
R1329 0
33 DAI1_D5 VDD10 +1VD 0.1uF
DSP1_DAO1_LRCK
16
93
RN1300 C1355
CVICS49834A-CQZ
SD_D6/EXT_D14
C C
DAI1_D4 SD_D6
R1330 0 33ohm (1005SIZE X 4)
17
92
5
DSP1_DAO1_SCLK
DAI1_D3 SD_D7/EXT_D15 SD_D7 0.1uF
18
91
8
6
DAI1_D2 SD_DQM0/EZT_A15 RN1310 C1389
SD_DQM0
19
90
7
7
CDIN/DATA
SDA/DOUT
VDD2 SD_WE/EXT_WE
CX_SDIN1
SD_WE
SCL/CCLK
CX_LRCK
CX_SCLK
R1331 0.1uF
20
89
0 +1VD
8
AD0/CS
AINR+
AINL+
RESET
DGND
AINR-
AINL-
GND2 DAO3_D6/UARTEN
VLC
INT
VD
21
88
5
1
SDRAM
10/16V
C1313
C1312
DAI1_D1 DAO3_D5/UARTCK
0.1uF
C1357
22
87
16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 CX_SDIN2
100/16V
64
C1314
VQ DAI1_D0 DAO3_D2/UARTRX
C1315
0.1uF
23
86
17 CX_SDIN3 0.1uF
63 GND3 DAO3_D1/UARTTX
FILT+
24
85
18 CX_SDIN4
62 VDD3 SCP1_BSY
REFGND C1358
25
84
19 SAI_SCLK BICK2 +1VD
AGND AGND AGND
AOUTB4- 61 R1376 33 DAI1_SCK1 VDD9
D_BR- +1VD
26
83
20 SAI_LRCK LRCK2 0.1uF
AOUTB4+ 60 DAI1_LRCK1 GND9
D_BR+ R1323
27
82
21 OMCK
4
C1359
59 DAI1_LRCK2 SCP1_IRQ
AOUTA4+
D_BL+
28
81
22 R1324 0 1K
3
ADCIN1
AOUTA4- 58 DAI1_SCK2 SCP1_CLK 0.1uF
D_BL-
29
80
23 ADCIN2 R1325 1K
R1343
100
C1360
VA 57 VDDIO1 SCP1_MISO_SDA
24 CS42528-CQ
30
79
CX_SDOUT SDTO1 +3V3_DC
1
AGND 56 GNDIO1 GND8 0.1uF
IC1303 R1326
AGND
31
78
25 RMCK MCKO
RN1301
AOUTB3- 55 RESET VDD8
+1VD
32
77
D_SR- 26 SAI_SDOUT SDTO2 56 33ohm (1005SIZE X 4)
To Volume
33
76
D_SR+ 27 VLS
53 R1340 1K DBDA1 SCP1_CS
R1344
C1347
AOUTA3+
3.3K
0.1uF
NC
34
75
D_SL+ 28 DGND
52 R1341 1K DBCK0 SCP2_CS
AOUTA3-
29
35
74
D_SL- VD
AOUTB2- 51 R1342 1K DBCK1 DAO3_D7/XMTB C1362
36
73
D_SW- 30 TXP
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
AOUTB2+ 50
D_SW+ 31 RXP0 0.1uF
SCP2_MISO_SDA
SCP2_CLK
49
SCP2_MOSI
DAI3_LRCK
DAI3_D0
DAO1_D5
DAO1_D6
VDD_PLL
DAO1_D7/XMTB
DAO1_D1/HS1
DAO1_D2/HS2
DAO1_D4
DAO1_SCK2
DAO1_LRCK2
AOUTA2+
DAI3_SCK
DAO1_D3/XMTA/HS3
DAO1_MCLK
VDDIO2
XTI
DAO1_D0/HS0
XTO
XTAL_OUT
GNDIO2
DAO1_SCK1
DAO1_LRCK1
GNDIO3
VDDIO3
GND4
GND5
GND6
GND7
VDD4
VDD5
VDD6
VDD7
D_CT+ 32
GND_PLL
+3V3_DC AGND
33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48
D_CT-
R1320
+5VD_DSP +3V3_DC
33
LPFLT
RXP5
RXP2
RXP1
RXP7
RXP6
RXP4
RXP3
AOUTA2-
AOUTB1-
MUTEC
AGND
AOUTB1+
AOUTA1+
VARX
AOUTA1-
D_FR-
33
D_FR+
C1326
C1324
C1325
C1327
C1328
C1329
C1323
C1322
+3V3_DC
+3V3_DC
33
+1VD
33
33
+1VD
+1VD
+1VD
T1300
R1352
R1322
R1321
33
D_FL+ +3V3_DC
10
0
VSS
SI
4
5
R1317
R1353
R1354
33
33
R1351
CVIMX25L3206EM2I-12G
0
D_FL-
0.01uF
0.01uF
0.01uF
0.01uF
0.01uF
0.01uF
0.01uF
0.01uF
R1356
+5VD_DSP
R1357
R1355
10K
10V/22uF
0.1uF
16V/10uF
10V/22uF
C1332
C1333
C1330
C1331
SCK
CLZ9R005Z
0.1uF
WP
DAI_D0
DAI_D1
AGND +3V3_DC
6
0.1uF
DAI_D2
DAI_D3
DIR_MCLK
L1300
R1345
R1316
R1349
R1350
3.3K
3.3K
C1350
33
33
33
C1349
R1346
HOLD
R1358
0
SO
10K
2
7
3.3K
10V/22uF
C1316
C1317
+1VD
R1348
0.1uF
IC1307
10K
Library ADD
R1359
R1360
R1361
DSP1_DAO1_LRCK
DSP1_DAO1_SCLK
CEN/SUB/DAO02
1M
FL/FR/DAO00
R1362 +3V3_DC
SL/SR/DAO01
VDD
CS
1
8
10K
1000P
C1318
R1363 10K
24.576M
0.1uF 10K
R1364
R1365 10K
C1351
12P
12P
AGND
C1352
R1366 10K
R1319
+5VD_DSP
DAO03
DAO01
DAO02
DAO00
DAO00
DAO01
DAO02
DAO03
0
10V/22uF
DAO[00:08]
C1320
B B
R1372 0
AGND DAO00
R1373 0
DSP1_DAO1_SCLK
R1374 0
DSP1_DAO1_LRCK
R1375
+3V3_DC
10K
10 9 8 7 6 5 4 3 2 1
+3V3_DC ON : HIGH
VCC OE1
Y8 GND
A8
A7
A6
A5
A4
A3
A2
OE2 A1
IC1308
OPT1
HDMI_TX_AUDIO_SW
Y7
Y6
Y5
Y4
Y3
Y2
Y1
Q1300
FROM JACK PCB C1363 RT1N241C
COAX1 11 12 13 14 15 16 17 18 19 20
0.1uF
Not use
HDMI_RX_SD0
HDMI_RX_SD1
HDMI_RX_SD2
ARC_SPDIF1
HDMI_RX_SD3
FROM HDMI RX AUDIO
HDMI_RX_LRCK
HDMI_RX_SCK
ARC_SPDIF2
HDMI_RX_MCLK
HDMI_RX_SPDIF
HDMI_MCK_SW
HDMI M_SW
DSP_LRCK
H : B & HDMI on
IC1305
HVITC74VHC157FT L : A & HDMI off DSP_SCLK TO HDMI TX AUDIO
DSP_DATA0
16
0.1uF
C1346
15
1A ST
2
14
1B 4A
3
REVISION 2 4 6
13
1Y 4B
4
+1V0_DC
1 3 5 7
A A
12
2A 4Y
5
SCHEMATIC DIAGRAM
11
2B 3A
6
L1301
+1VD SHEET
CLZ9Z014Z 56
(1A)
C1388
10
2Y 3B
10V/22uF
0.1uF
7
C1387
R1334
+3V3_DC
+1VD
MP AVR161/230 12
82
CS49834 VDDIO * 6EA CS49834 VDD * 15EA
MODEL
GND 3Y
8
R1335
27
100/16V
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
C1373C13720.1uF
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
100/16V
C1374
C1371
C1365
C1366
C1369
C1375
C1376
C1377
C1378
C1379
C1380
C1383
C1385
C1386
C1367
C1368
C1370
C1381
C1382
C1384
ISSUE
ANAM
MULTI. LAB
2012.11.08 C.D.W S.K.S C.D.C CUP12504SCDZ
2012.11.08 (DSP_CODEC) 4
Page 170 of 1786
Harman Kardon 6 5 4 3 2 1 AVR 161 Service Manual
HDMI CEC_PART
CUP12456Z
+3.3VC
ST+5V +3.3VC
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
R1400 33 IC1404
CEC CVIDB1510BT3TR33
C1426
C1427
C1428
C1429
C1430
C1431
C1432
C1433
C1434
C1435
C1436
L1401 R1461
1 VIN OUT 3
D D
CLZ9R005Z 0
* MODEL
MCU_OPTION
CRJ10DJ0R0T
GND
CHGND
C1400
USA : R1475
4.7uF 6.3V
2
10V/22uF
C1409
C1410
C1408
0.1uF
0.1_NC
Q1400 Option
CHGND
R1401 +3.3VC +3.3VC EUR : R1474
CEC_OUT INC2001AC1
CHGND CHGND CHGND CHGND
3
10K
CEC_OUT
R1402
OPTION
CHGND +3.3VC
MCU OPTION
BAR43C
D1400
STM32F20XX
R1403
R1404
C1401
C1402
1000P
1000P
4.7K
1
+3.3VC
47K
R1467 0
+3.3VC
CVIML61C282PR IC1406
CEC_IN 12.08.13 Alt. C1414 0.01uF
OPEN
CN1402
CHGND
IC1405
MAIN_VOL_DATA
R1407 18K_NC (2.8V RESET)
KEY_INPUT_INT
1
MAIN_VOL_CLK
CEC_IN
MCU_JTEG
VOUT
CURRENT_DET
CAT809RTBI-GT3 R1468 0 (NC)
VSS
BT_PWR_CTL
VIN
POWER_DOWN
220K
POWER_MUTE
R1409
2
TUNER_MUTE
CHGND
BT_AUDIO_EN
POWER_FAIL
HEAT_DET
Z1_TRIGGER
FUNC_MUTE
R1479
Q1401 20K 3 2 1 STM32F10XX RESET
3
R1406
C1403
3 1
100K
HP_MUTE
SB_MUTE
220P
2SC3052 +3.3VC
RESET
JTAG_JTDO
MIC_IN
3
KEY1
KEY2
4
HP_IN
R1410 0 (NC)
JTAG_JTCLK
G
2
Q1406
Q1402 +3.3VC
5
0.1uF (NC)
OPEN
R1408
C1416
2012.03.27 JTAG_JTMS
0.1uF
2SC3052
C1404
C1411
6
R1405
0.1
PROTECT_IN
R1469 10K JTAG_JTDI
7
CHGND
2.2M
R1462
CHGND R1470 10K JTAG_TRST
8
1N141C
R1463 R1471 10K CHGND
9
10K
CHGND R1472 10K
OPEN C1417 0.1uF CHGND
CHGND
R1473 10K T1426 R1480 10K
T1428
T1427
R1481 10K
C1418 1000P
R1478
R1482 NC
0
CHGND
C1412
R1483
R1476
R1477
12P
47K
COX25000I120ST
MILAN VBUS DETECT
R1465
1M
TXC
X1400
R1466
2
0
C1413 R1464 CHORUS_VBUSDRIVE
0.01uF
C1415
12P 0
CEC_IN CEC_IN
R1459
USB_CURRENT
33
T1402
T1403
CEC_OUT CEC_OUT
12.07.26 UART_RX BT_TX
CHGND
R1442
UART_TX
10K
VOLTAGE_SEL1
10K
10K
36 35 34 33 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
VOLTAGE_SEL2
Q1405
BT_RX
KEY2
KEY1
VDD
VSS
SB_MUTE
XTAL_IN
MIC_IN
RESET
ZONE2_MUTE
MAIN_VOL_DATA
HP_MUTE
MAIN_VOL_CLK
XTAL_OUT
TUNER_MUTE
BT_PWR_CTL
VDD
FUNC_MUTE
POWER_MUTE
KEY_INPUT_INT
37 144
T1P144C
R1460
0 (NC)
R1413
R1412
CHGND
VSS RFU MCU_OPTION
T1400
T1401
38 143 T1416
R1443 33
C 39 VDD NC 142
R1444 33
T1417
C
SCP1_CS 40 SCP1_CS BCO_VBUS_DET 141 +3V3_DC
8
To SMPS
4
T1418
R1445 33
DSP_CODEC_CLK 41 DSP_CODEC_CLK REGION OPT. 140
7
3
RN1400 100X4
SCP1_MISO 42 DSP_MISO REMOTE_IN 139 REMOTE_IN
6
2
R1446
BOOT
VOL_L_CONT
DSP_CODEC_MOSI
R1491
DSP_CODEC_DATA 43 BOOT0 138
33
5
1
100
T1425
CODEC_MUTE 44 CODEC_MUTE MHL_SDA 137
8
6. VBAT
5. HP_IN
3. POWER_DOWN
8.OSC32_IN
7. SIGNAL DETECT
4. Z1_TRIGGER
1. PROTECT
2. POWER_FAIL
9. OSC32_OUT
HDMI_MCK_SW 45 HDMI_MCK_SW MHL_SCL 136 BT_FN3
7
RN1401 100X4
30. VDD
32. VREF
31. VSSA
4.7K
29. VOL_L_CONT
36. BT_TX
34. N.C
33. VDDA
28. KEY_INPUT_INT
DIR_MISO
4.7K
DIR_MISO 46 CEC_IN 135
6
T1419
CEC_OUT ON : HIGH
47 ST_LED_CONT DEBUG(NJTRST) 134
Q1404
5
R1414 0
0 (NC)
R1492
BOOT1
T1P144C
DEBUG(JTDO)
CJP11GA299ZN
CHGND 48 133
R1454
R1455
<=> DSP/CODEC
R1416 100
49 POWERON_LED_CONT NC 132 ZONE2_MUTE
WF1401
R1417 100 Q1403
10K(N.C)
VSS
R1415
51 VSS 130 2012.11.05
T1405
T1404
T1420
VDD
R1447 CHGND +3.3VC VID_SW1
52 NC 129 MHL_DET VID_SW1
1
R1448 0 T1P144C
DSP_MODE2 53 DSP_MODE2_SEL BT_STATUS 128 BT_STATUS VID_SW2 VID_SW2
2
8
R1449 33
DSP_MODE1 54 DSP_MODE1_SEL VOL_L_CONT 127 +12V +12V
3
7
4
6
5
5
6
R1419 100
SCP1_BSY 58 DSP_PCP_BSY TUNER_SDA 123 TUNER_SDA ST+5V ST+5V
<=> TUNER CONTROL (JACK B'D)
7
R1458
R1420 0ohm
EN_VBUS 59 EN_VBUS TUNER_SCL 122 TUNER_SCL DGND
8
DEBUG(JTMS)
*OTG_FS_DM
47K
*OTG_FS_DP
T1423 T1424
R1421 0ohm
EN_RX1_PWR COAX1
EN_RX1_PWR 60 VDD 121 CHGND COAX1 COAX
9
T1421
T1422
VSS 5 6 7 8
HDMI_TX_AUDIO_SW VSS DGND
10
61 120
BCO_SPI_MISO
BCO_SPI_MOSI
R1422 0
NET_PWR_SW
33
BCO_SPI_CLK
VCAP
VDD BT_STATUS_PAIR SDA SCL /WC VCC
VDD
HDMI_RX_AUDIO_SW BT_STATUS_PAIR OPT1
11
BCO_SPI_CS
62 119 OPT1
VSS
T1408
R1423 33 R1453
BCO_REQ
BCO_RST
NC HDMI_INT_TX ZONE2_VOL_DATA CVIM24C32WMN6TP
USB_SEL
T1409 63 118 IC1403
106.
107.
108.
103.
104.
105.
NC VSS E2 E1 E0
T1406
T1407
NC
ST_LED_CONT HDMI_TX_SW HDMI_INT_RX2
<=> FRONT PCB
65 116 HDMI_INT 4 3 2 1
73.
74.
75.
76.
77.
78.
79.
80.
81.
POWERON_LED_CONT
66 HDMI_RX_SW HDMI_HOLD 115 HDMI_SPI_HOLD
HDMI_POWER_SW1
VID_SW1 67 VID_SW1 HDMI_CS 114 HDMI_SPI_CS
DSP_POWER_SW
HDMI_SPI_MOSI
*OTG_FS_VBUS
VID_SW2 68 VID_SW2 HDMI_MOSI 113
*OTG_FS_ID
DEBUG_TX HDMI_SPI_MISO
HDMI_TEST
HDMI_MISO
POWER_ON
69 112 CHGND
HDMI_SDA
BT_FN1
HDMI_RST
VFD_DATA
HDMI_SCL
<=> BT PCB
MHL_DET
TEMP. SENSING
VFD_RST
VFD_CLK
DEBUG_RX HDMI_SCK HDMI_SPI_SCK
USB_OE
70 111
VFD_CE
BT_FN2
VOL+
VCAP JTAG_JTDI
VOL-
10V/2.2uF
DEBUG(JTDI)
VDD
VDD
71 110
VSS
VSS
10K
10K
VDD
0 (NC)
DEBUG(JTCK)
<=> JTAG
72 109 JTAG_JTCLK
73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 JTAG_TRST
R1425
R1424
R1426
MCU OPTION
C1406
JTAG_JTDO
10V/2.2uF
10K
C1407
IC1400 CHGND CHGND JTAG_JTMS
STM32F10XX
STM32F20XX
R1438
LM94022BIMG
CN1401
GS0
GND
OUT
VDD
GS1
BOOT BOOT
7
1 2 3 4 5
NC
B B
6
MCUGND
5
RXD
0
4
TXD
3
C1405
0.1uF
MCU+3.3V
R1430
+3.3VC
2
RESET RESET
1
100
CHGND
10
33
10
R1432
R1433
12.09.25
R1428
R1431
MCU PORT WITH MHL
T1410
TEMP OUT
HEAT_DET
* DEBUG & UPDATE
1
1
R1411
T1411
GND 10K
2
2
PW_GND
D1401 T1412
33
+5V_D
+5V_DC/DC
CN1400
3
BN1400
3
+3.3VC
T1413
1SS355 T1415
R1427
T1414
47Kohm
R1439
IC1402
R1440 0
MHL_WAKE_PORT
3
PWR_SW3
AMP_GAIN_CONT
USB_ OE
POR_N
VFD_CS
HDMI_MUTE_OUT
PWR_SW2
VOL_EN1
VOL_EN2
HDMI_SCL
POWER_HIGH
USB_SEL
VFD_RST
VFD_DATA
VFD_CLK
HDMI_RST
USB_VBUS
PWR_SW1
MCU_USB_DM
HDMI_SDA
MCU_USB_DP
NET_PWR_SW
R1441 0
MHL_RX_HPD CD_SENSE0
2
MHL_DET
1
UPA672T
POWERON_LED_CONT
REMOTE IN
KEY_INPUT_INT
ST_LED_CONT
VOL_L_CONT
MIC_SIGNAL
+5V_DC/DC
VFD_DATA
HP_MUTE
VOL_EN1
HPR-OUT
VOL_EN2
VFD_CLK
HPL-OUT
VFD_RST
VFD_CS
MIC_IN
HP_IN
IR_IN
KEY2
KEY1
ST+5V
+3V3_DC
REVISION 2 4 6
R1484 R1485
REMOTE_IN R1434 10K
R1436
R1437
10 10K
R1435
1 3 5 7
10K
A A
0
0
10/16V
150P
C1419
C1437
R1487
47K
R1486
10K
IR_IN
R1488 D1403
CHGND CHGND CHGND
AGND
1 3 5 7 9 11 13 15 17 19 21 23
CHGND MP SCHEMATIC DIAGRAM SHEET
REMOTE_IN
HVTKTA1504SYRTK 2 4 6 8 10 12 14 16 18 20 22
10K
WF1400 CJP23GA299ZN
Q1407
13
<=> FRONT PCB AVR161/230
CVD1SS355T
MODEL
D1404
REMOTE_OUT
R1489 Q1408
HVTKTC3875SYRTK ISSUE
27
10K
ANAM
R1490
MULTI. LAB
12.11.08
CHGND
D D
+12V
DC PROTECTOR
Q1510 R940=1.5K 12.12.17
WF1502
R1568
RT1P144 Operating: +5.0V~ , -5.0V~ CURRENT_DET
OC_DETECT
1
R1580
POWER_FAIL 10K
POWER_MUTE P_M
2
* 3 Step Detect * 0
MMBT5551 MMBT5551 DC_PROTECT
D1506
3.3V
3
Q1517
R1569
10K
R1503 R1504 Q1511 Q1512
3.8A : VCC 45V->41V
0V MMBT5551 OVERLOAD
4
1000P
1000P
4.3A : VCC 41V->25V
R1571
C1550
C1553
100K
6.8K 0 C1500 P_FAIL
5
3.3K
R1500 R1505
5.96A: Protect
D_FR-
1SS355
D1505
MAIN_VOL_CLK VOL_CLK
6
1.5K
390P DAC-R DAC-R
R1562
1.5K
3.3K R1502 R1506 C1509
R1501 AGND AGND
D_FR+ MAIN_VOL_DATA VOL_DATA
7
D1504
10/16V
+7V
C1552
1.5K 100 10/16V TUNER_SCL TUNER_SCL
8
AGND AGND AGND
1SS355
+3V3_DC TUNER_SDA TUNER_SDA
9
Q1515
0.01uF
C1511
R1509
AGND
100K
FUNC_MUTE
10
MMBT5401 Q1516 FUNC_MUTE
R1507
2700P
6.8K
C1503
C1501
C1502
2700P
390P
C1510
5 6 7 8
0.1uF
MMBT5551
TUNER_MUTE
11
TUNER_MUTE1
B-INPUT
L1500
V+
AGND
B+INPUT
B OUTPUT
+3.3VC
12
IC1500
-
B
AGND Q1513 CLZ9R005Z
+
AGND AGND
iPHONE_MUTE
13
CVIAZ4580MTR-E1
MMBT5551 AGND AGND AMP_GAIN_SW
22/6.3V
A OUTPUT
0.1uF
A
C1554
C1555
A+INPUT
-
+12V
DGND
14
A-INPUT
C1505
V-
2700P
C1506
390P
C1507
0.1uF
2700P
C1504
AGND
0.01uF
R1508
15
4 3 2 1 -7VA
C1512
R1510
6.8K
-7V
100K
0
16
OVERLOAD DETECTION AGND
R1570
+7VA
17
+7V
3.3K C1513
DAC-L DAC-L 0V
R1512 R1513 -7V R1511
D_FL+
1.5K C1508 100 10/16V
RT1P144
Q1514
R1515
R1563
R1514 3.3K
D_FL-
3K
10/16V
C1551
SUB_IN
R1567
4.7K
1.5K CHGND
R1517 390P
R1516
PROTECT_IN
6.8K
0 SL_IN
R1564
R1533 0
1K
R1534
FROM CODEC
TO AMP B'D
R1518 3.3K 10K
R1535 C1522 CNT_IN
D_SW- AGND
1.5K DAC-SW
R1519 3.3K R1520
8200P
R1532 C1523 DAC-SW
D_SW+ R1565 SR_IN
1.5K +7V 100 10/16V
AGND
T1501
4.7K
PROTECT TEST
0.068u
R1566
(SHORT) FL_IN
8200P
+12V T1500
0.01uF
C1525
R1531
100K
4.7K
R1521
0.068u
C1514
10K
C1524
5 6 7 8
0.1uF
FR_IN
C1516
C1515
B-INPUT
V+
AGND
B+INPUT
B OUTPUT
IC1501
-
B
AGND
+
CVIAZ4580MTR-E1
+
A OUTPUT
A
A+INPUT
-
A-INPUT
C1518
C1519
2700P
V-
390P
C1520
0.1uF
C C
C1517
2700P
R1522
4 3 2 1
0.01uF
C1526
R1530
6.8K
100K
DAC-C
R1523 3.3K R1525 -7V R1529 C1527 DAC-C
WF1501
D_CT+
MILAN_L
1
MILAN_R 1
1.5K 100 10/16V
R1524 3.3K R1526 C1521
D_CT- MILAN_R
2
MILAN_L 2
CJP27GA299ZN
C1548
C1549
1.5K
R1528 390P
22P
22P
AGND
3
R1527 3
BT_FR BT_FL
4
6.8K 4
0
BT_FL BT_FR
5
R1548 R1549 5
AGND
6
6
6.8K 0 C1536
R1536 3.3K R1550 MIC_SIGNAL AGND
7
D_SR- 7
DAC-SR AGND
8
1.5K DAC-SR
R1537 3.3K R1538 390P R1551 C1537 8
D_SR+ AD-L
9
AD_RIN 9
1.5K +7V 100 10/16V
AD-R
10
AD_LIN 10
AGND
11
R1552
0.01uF
11
C1538
100K
SUB_IN
R1539
2700P
12
6.8K
C1528
C1530
2700P
C1529
390P
C1541
5 6 7 8
0.1uF
12
AGND
13
B-INPUT
V+
AGND 13
B+INPUT
B OUTPUT
-
IC1504
FL_IN
14
B
AGND 14
+
CVIAZ4580MTR-E1
AGND
15
A OUTPUT
A
15
A+INPUT
-
A-INPUT
FR_IN
16
2700P
C1533
V-
C1532
390P
C1534
16
0.1uF
C1531
2700P
0.01uF
R1540
4 3 2 1
C1539
R1553
6.8K
AGND
100K
17
17
CEN_IN
18
18
AGND
19
DAC-SL
R1541 3.3K R1542 -7V R1547 C1540 DAC-SL 19
D_SL+ SL_IN
20
20
1.5K C1535 100 10/16V
R1543 R1544
AGND
21
3.3K
D_SL- 21
SR_IN
22
1.5K 390P
R1545
R1546 22
AGND
23
23
6.8K
0
HP_L
24
HPL-OUT 24
AGND
25
25
HP_R
26
HPR-OUT 26
AGND
27
27
AGND
+12V
1
MUTE CONTROL Bluetooth
2
-12V
CN1501
3
B B
AGND
2012.03.01
12.12.17
R1554
17
D1500 1SS355 +3.3V_BT NET_3.3V
17
ST+5V
16
1K GND 16
1SS355 ST+5V
D1501
15
R1590 1K GND
+12V FUNC_MUTE TUNER_MUTE1 TUNER_MUTE 15
14
GND
Q1500
Q1509
14
R1555
10K
470/16V
470/16V
13
+5V_BT
T1P144C
C1542
C1543
13
12
BT_STATUS 12
BT_STATUS
-12V
11
BT_STATUS_PAIR 11
BT_STATUS_PAIR
Q1501 Q1502
BT_FN3
10
FN3 10
BT_AUDIO_EN BT_AUDIO_EN
9
R1556 9
R1561 FN2 BT_FN2
8
1M 8
T1N144C T1N144C -12V
FN1 BT_FN1
7
100K 7
GND
6
6
BT_FL BT_FL
5
5
CJP17GA193ZY
GND
4
4
R1591 1K BT_FR BT_FR
HP_MUTE
3
3
GND
2
Q1503
WF1500
R1557
BT_PWR_CTL
T1P144C
10K
BT_PWR_CTL
1
1
FUNC_MUTE
Q1505 Q1504
R1558
HP_MUTE
1M
+12V CVILM7808RTRL +8V +7V
IC1502
T1N144C T1N144C
D1502
AMP_GAIN_CONT 1 IN OUT 3 ISSUE
HVD1SR159-200
ANAM
MP
GND
C1544
C1545
0.1uF
0.1uF
2 MULTI. LAB
2012.11.08
R1592 1K AMP_GAIN_SW
AGND AGND AGND
Q1506
R1559
T1P144C
10K
-12V CVILM7908RTRL
IC1503
-8V -7V
REVISION 2 4 6
1 3 5 7
Q1508 Q1507 D1503
R1560 2 IN OUT 3
A 1M
HVD1SR159-200 A
GND
C1546
C1547
0.1uF
0.1uF
SCHEMATIC DIAGRAM
T1N144C T1N144C 1
SHEET
AGND AGND AGND
AVR161/230
14
MODEL 27
D D
Bluetooth_BM840
NC / OPTIONS
T13 BT_LRCK
T12 BT_DO
T11 BT_BLCK
+3.3V_BT
OPEN
R1123
+3.3V_BT
FN4
T1 1.8V_SMPS
1K
1K
1K
1K
OPEN
R1124
R1118 0
10uF/6.3V
R1122
R1121
R1120
R1119
C1104
C1102
C1103
0.1
0.1
C C
17
CHGND CHGND +3.3V_BT
17
+3.3V_BT
16
16
GND
15
15
GND
46
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
30
CHGND
14
14
GND
58 57 56 55 54 53 52 51 50 49 48 47
18 19 20 21 22 23 24 25 26 27 28 29
13
+5V_BT 13
+5V_BT
DIGITAL B'D
12
12
BT_STATUS
TO CODEC
11
BT_STATUS_PAIR
11
10
AGND 10
FN3
IC1100
BT_AUDIO_EN
9
9
BT_R-
R1117
R1114
R1115
R1116
100K
10K
1K
1K
FN2
8
CHIP ANT BT_R+ 8
R1113 FN1
7
47K 7
Origin:ACA-5036-A2-CC-S 2.4g antenna BT_L-
R1112 GND
6
OPEN 6
3 4 BT_L+ BT_L BT_FL
5
5
CN1101 CJP17GB210ZY
C1111 C1109 IMPEDANCE LINE _ 50ohm [0.5mm]
GND
4
4
2 1
50V/1.2pF
50V/100PF 50V/100PF BT_R BT_FR
3
3
C1112
AN1101
OPEN
C1110
C1108
GND
2
OPEN
2
10
11
12
13
14
15
16
17
R1110
1
2
3
4
5
6
7
8
9
12.11.08
C1101
BT_PWR_CTL
1
1
12.09.01
OPEN
1uF
AGND
CHGND
CHGND
7
BM840_DEBUG R1109 OPEN 6
T8 BM840_DEBUG CHGND
6
BM840_SPI_MISO R1108 0 5
BM840_SPI_MISO
5
+3.3V_BT BM840_SPI_MOSI R1105 0 4
BM840_SPI_MOSI
4
BM840_SPI_CLK R1106 0 3
BM840_SPI_CLK
CN1102 CJP07GA193ZY
BM840_SPI_CSB
3.3Kohm
10Kohm
R1107 0 2
BM840_SPI_CSB
2
1
+3.3V_BT +3.3V_BT
1
+3.3V_BT
IC1101
CVIMX25L8006EM2I-12G
R1100
R1101
VDD
1
8
CS
0.1uF / 16V
C1100
CHGND
R1102
HOLD
B B
SO
2
10Kohm CHGND
R1103
SCK
3
6
WP
3.3Kohm
R1104
VSS
4
5
SI
10Kohm
CHGND
CHGND
OPEN
AGND
CLZ9R005Z
L1130
10uF/6.3V
T16
T15
IC1102
C1140
C1139
0.1uF
R1130
10Kohm
CVIPCM5100PWR
R1129
10K
DVDD CPVDD
20
C1130
1SS355T
1SS355T
C1132
D1101
C1133
0.1uF
19
2.2uF 6.3V
TO VOLUME
XSMT CAPM
C1134
17
FMT VNEG
16
R1134
470
RN1100 LRCK OUTL C1141 10/16V
15
BT_L
6
BT_LRCK
5
DIN OUTR
REVISION 2 4 6
C1142 10/16V
BT_DO
14
BT_R
7
6
R1135
BT_BLCK BCK AVDD
2200P
2200P
C1137
C1138
7
470
R1136
R1137
100K
100K
13
C1136
1 3 5 7
0.1uF
MCK
C1135
8
33X4
R1132 R1133
FLT DEMP
11
10
SCHEMATIC DIAGRAM
10K 10K
MP SHEET
CHGND CHGND
AGND
AVR161/230
27
MODEL 27
ISSUE
ANAM
MULTI. LAB
DESIGN CHECK APPROVE DRAWING NO
CUP12510Z
12.11.09
6 5 4 3 2 1
AC-L
DSC-2.5D20 J912
R903 10mm 1510, 151 : 50V 2200uF 1510, 151 : 50V 220uF
15mm J962 7uH
VT92
12.5mm
15mm
C956
J941
J949
VCC(+45V)
250V 270uF
68K 2W
1
47 2W
230V : T 6.3A H 250V
10mm
R920
C970
DB91
C969
223
224
C910 6 8
100V : T 8A H 250V
C901
63V 2200uF
D D
3
RS1005M
7K5 1W
63V 470uF
Not used
1KV 102 K
C928
400V 152 M
275V 334 K
Not used
Not used
R960
R965
R921
56KF
C937
RX91
RX94
C981 DGND
2
1KV 222 K
CY91
14D-561K
1.5M
C972
C971
223
224
5 9
2
3
Not used
1
275V 224 K
4 1
1KV 470 J
14D-561K
VCC(-45V)
3
CX92
F901
C912
D906 D944
CX91
VT91
250V 270uF
C930
US1M US1M CN20
RX93
3
2
4
4
3 4 10 HS92 HS93
LF93 LF91 LF92
C974
Not used
Not used
C973
223
HEAT SINK HEAT SINK
224
400V 152 M
RX92
RX95
63V 2200uF
HS93
63V 470uF
RING-616/120uH Min SQE2930/8mH SQE2930/8mH
7K5 1W
R955 56KF
Not used
CY92
F901
L HEAT SINK
R993
1 2 1 2
R998
C939
C936
DGND
1
J938 3 11 D952
D950
C976
C975
223
224
N 20mm MM1Z15 FCU20A40 L928
J948 (400V/20A)
2
AC-N
CN90 CY96
20mm 230V : Not used 2 12
YW396-03AV BD91 R930
USA : 400V 222M PC97 R933 CN66
3512 CHGND 400V 222 M 47KF 4 1
PGND 0 ohm EL817B
EUR : 400V 152M C957 1710, 171 VKK
R987 R985 +38V
7
Not used
J904 R915 D904 180 VOL_SEL_1 7
0 ohm
1 13 Not used R930 : 47KF
R992
R983
C968
C967
103
1KV 102 K
104
10mm BD95 3 2 H->L 45V
PC98 1K8
68K US1M 4 EL817B 1 R957 R962 : 16KF DGND
6
PGND C982 6
Not used H->L 25V DGND
Division : C901 Division : C930 DGND
R943 6K2
R941 6K2
14 Not used R948 R989 ST5V
Not used
Division : Q901 R962 180
1610, 161 1510, 151
150KF
VOL_SEL_2
50V 105 K
ST+5V
15KF
C922
R901 1710 : 250V 270uF 171 : JUMPER 1710 : 250V 270uF 171 : 450V 150uF
5
PGND 0 ohm 16KF 2 J933 5
C927
1710, 171 : SPW17N80C3 1610 : 250V 220uF 161 : JUMPER 1610 : 250V 220uF 161 : 450V 120uF 3
1610, 161 : IPW65R280E6 3K9 1K8 R930 : 62KF R930 : 68KF
1510 : 250V 220uF 151 : JUMPER 1510 : 250V 220uF 151 : 450V 120uF 4K7 7.5mm
1510, 151 : IPW65R280E6 4 1 R962 : 16.9KF R962 : 20KF +12V
R953
R977
DGND +12V
4
4
D907 R966 IC93 J910 D909 R944 1
1N4448W 22 2 3
2
ICE2QS02G 15mm
R902
MM1Z20 J922
15K
2 AGND
3
3
1KV 221 J
IC94 3
5
2
3 1 +BV 2
1610, 161 : HS-BP030HB (H30mm) HEAT SINK 7.5mm
3
R906
ZC TF92
39
1KV 102 K
D915 C904 Q902 J959 GND
Q901
1
4
17N80C3
3 2 1N4448W 1
GND
CS D922
C FB R937 DGND C
C905
Not used 50V 105 K
15K
PGND
12.5mm
R916
R907
C920 1 14
1 3
1
PGND 1K 68K 1W
R912 50V 47uF 100MHz_60ohm_6A IC97 +12V
50V 47 J
C906 50V 222 K
SF26 7812A
360 1W
25V 470uF
R994
1N4448W
2 13 (400V/2A) 2
1KV 470 J
BN65
C933
D924
1K1 C932
MM1Z27
C919
D903
25V 225 K
D912
R918 US1M
C913
1N4007
VOL_SEL_1 VOL_SEL_1
1
R917
C907
D919
20K 3 12 50V 104 K
Not used
50V 104 K
VOL_SEL_2 VOL_SEL_2
1N4448W
360 1W
2
C983
4 11
R995
D925
25V 100uF
C926
2 1 1
C953
R914 R913 C909 R931 D937
50V 821 J 820K PGND 10 (400V/2A) L923
0R1 1W 0R1 1W CY95 DGND DGND
3
J909 TS92 5
400V 102 M DGND
D939 2 3
10mm 110℃/70mm 100MHz_60ohm_6A
C955
50V 22uF
CHGND 31DQ06-FC5 SF26 J952
HS91 J925 J923 IC98 DGND
4
HEAT SINK IC92 6 9 D938 -12V
C958
6mm
C945
103
7VD
104
D917 D918 31DQ06-FC5 7912A D936
5 4 ICE2B265 D920 20mm 12.5mm
6 5 4 3 2 1 MM1Z16 MM1Z16 UF4004 8 D934
D+7V
5
D D 7
VCC 7 31DQ06-FC6 1N4448W
10K
6
C977
104
3 1 (60V/3A)
C915 PC96
D+7V
R935
Not used
C916
R945
220 1W
220 1W
6
CS NC 22
C941 J935
R978
R973
EL817B 560 D+7V
50V 105 K 10V 5600uF
GND
PGND
7VD
PGND
FB
7
C921 L925
J937 1K
1 8 2 50V 22uF PGND 7VD
7.5mm PGND J906 DGND DGND
4 1
560
PGND 20mm 7uH -12V -12V
8
PC94 R986 R951
AC-N
1N4448W
AC-L
EL817B R958
C962
Not used
C961
Not used
R949
103
Q916
10V 1000uF
D926
104
4 1
10KF RT1N141C
3
C934 R954
C943
AGND
9
C960
C959
103
104
3 2
50V 474 K
J914
0 ohm
J943
0R6 1W
R968
J920 50V 105 K 4K7 2
R908
C903
2
D916 +12V
10
7.5mm 3 2 +12V
D932
R939
20V 1/2W PC1 R991 12.5mm IC95 R959
D913 12.5mm R956
47
S1M
3
KA431SAMF2 47K 5K6F
S1M PGND
1
ST+5V
11
J916 S5V R940 DGND
B 4 PC91 1
1K B
R950
2
220K
R909 10K R961 560 15K
C917
C964
D901 DGND
C963
103
10mm D943
104
PGND R990 EL817B R938 PC1
Not used 50V 472 K UF4004
ST+5V
12
10
3
+BV AC-L S1M 10 1W 1 J931 3 1 VKK
DGND
+BV 1 3 IC99
R974
1KV 102 K
230V : 150K
75K
R984 47
C978
100V : 75K
104
C911
C902 78L24
R982
R980
R979
R981
470K
470K
470K
470K
Q914
POWER_HI
13
D902 7.5mm
2 2
1N4448W
450V 22uF A708Y
R924
1.2M
ST5V
9
D927
AC-N PGND
S1M R988
AMP_VCC_ON
14
0 ohm
2 8 C949 PC2
75K
1
DGND Q909
R904
R975
1.2M
MM1Z12
0 ohm
PGND POWER_DOWN
D929
15
J908 1.2M